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産業用3Dプリンティング市場:オファリング、プロセス、テクノロジー、アプリケーション、エンドユーザー別-2024-2030年の世界予測

Industrial 3D Printing Market by Offering (Materials, Printers, Services), Process (Binder Jetting, Direct Energy Deposition, Material Extrusion), Technology, Application, End User - Global Forecast 2024-2030

出版日: | 発行: 360iResearch | ページ情報: 英文 182 Pages | 納期: 即日から翌営業日

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産業用3Dプリンティング市場:オファリング、プロセス、テクノロジー、アプリケーション、エンドユーザー別-2024-2030年の世界予測
出版日: 2024年04月17日
発行: 360iResearch
ページ情報: 英文 182 Pages
納期: 即日から翌営業日
ご注意事項 :
本レポートは最新情報反映のため適宜更新し、内容構成変更を行う場合があります。ご検討の際はお問い合わせください。
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概要

産業用3Dプリンティング市場規模は、2023年に35億9,000万米ドルと推定され、2024年には41億5,000万米ドルに達し、CAGR 16.55%で2030年には105億米ドルに達すると予測されています。

付加製造とも呼ばれる産業用3Dプリンティングは、デジタルモデルから3次元物体をレイヤーごとに構築します。迅速で費用対効果の高い製品開発を可能にするラピッドプロトタイピングに対する需要の開拓が、産業用3Dプリンティング市場の成長を牽引しています。また、複雑な形状やカスタマイズされたコンポーネントを製造できる技術も、メーカーが多様なニーズに対応できるようにする大きな原動力となっています。さらに、製造工程における作業効率の追求と無駄の削減が、産業用3Dプリンティングの採用をさらに後押ししています。産業用3Dプリンティング市場の妨げとなっているのは、材料の制限と品質管理・標準化の問題です。個々の患者に合わせた医療機器やインプラントを提供できるヘルスケア分野での採用拡大が、市場成長の足掛かりになると予想されます。新しい産業用3Dプリンティングソリューションを導入するための市場ベンダーによる研究開発活動の高まりは、市場成長の機会を生み出すと期待されています。

主な市場の統計
基準年[2023] 35億9,000万米ドル
予測年[2024] 41億5,000万米ドル
予測年 [2030] 105億米ドル
CAGR(%) 16.55%

提供品質検査のために実世界の対象物をデジタル化するソフトウェアの採用が拡大

セラミックスを含む産業用3Dプリンティングに含まれる材料は、高温用途や生体適合性において可能性を提供します。ガラス、石英、シリカは透明性と純度で知られ、光学やフォトニクスにとって重要です。印刷精度と内部応力の除去は、開発の主な分野です。アルミニウム、コバルトクロム、金、インコネル、銀、鋼、チタンなどの金属には高い需要があります。それぞれの金属は、特殊な印刷環境と後処理基準を必要とします。ナイロン、フォトポリマー、ポリカーボネート、ポリ乳酸、ポリプロピレン、ポリビニルアルコール、各種熱可塑性プラスチックなど、多様なポリマーが幅広い用途に対応しています。市場では、さまざまな生産規模に対応し、前述の材料を処理できるさまざまなプリンターが提供されています。ユーザーが考慮すべき点は、印刷量、速度、解像度、信頼性、運用コストなどです。プリンターは、航空機からレーシングカーに至るまで、高価値製品の軽量かつ複雑な形状を製造するプロフェッショナル印刷用に運用されています。プリンター分野の成長は、3Dプリンティングに対する認識の変化と、成熟した製造ソリューションとしての発展に起因しています。中小企業はデスクトップ・プリンターを採用し、3Dプリンティングやその他の関連サービスを提供するために業務を多様化し、精度を確保しています。これらのサービスはさらに、コンサルティング・サービスと製造サービスに分けられます。コンサルティング・サービスは、新興の製造プレーヤーが新興の3D技術をビジネス・プロセスに導入できるようにナビゲートします。3Dプリンティングのコンサルティング・サービスは、付加製造技術を製造やビジネス・モデルに統合するための適切な方法に関する情報を提供します。製造サービスでは、コンセプトが今日と明日の産業に適した完成品に成長することを保証し、3Dプリント部品の目的と機能性を高める視覚的に印象的なプロトタイプの作成を支援します。製造サービスにより、3Dプリントのお客様は厳しい生産期限を守り、最も要求の厳しい業界の品質基準を満たすことができます。産業用3Dプリンティングソフトウェアは、他の追随を許さない機能とツールを備えたコンピュータグラフィックスの業界標準とみなされています。このソフトウェアは、デザイン、検査、印刷、スキャニングの各ソフトウェアに分類されます。デザイン・ソフトウェアは、特に航空宇宙・防衛、自動車・建設、エンジニアリングの各分野で、印刷する対象物のデザインを構築するために使用されます。デザイン・ソフトウェアは、プリントする対象物とプリンターのハードウェアとの橋渡し役として機能します。3Dプリンティングは、独自のユーザーインターフェースと高精度で動作する高度な機能を備えた設計ソフトウェアを提供することに重点を置いています。形状や寸法解析が3D方式で行われる工業部品の3D検査は、CMMや触覚測定システムなど、従来は時間がかかっていた難しい形状や特徴を持つ複雑な部品への応用です。3Dプリント・ソフトウェア・ツールは、3Dプリントの実行を支援するプログラムに重点を置いています。プリントソフトウェアは、クラウドベースの3D CADプログラムであり、クラウドの力を利用して設計チームをまとめ、複雑なプロジェクトで共同作業を行います。スキャニング・ソフトウェアは、対象物をスキャンし、サイズや寸法に関係なく、スキャンした文書や画像を保存して、これらの対象物の3Dプリントに使用します。

プロセス:プロトタイピングと少量生産における材料押し出しプロセスの高い可能性

バインダージェッティングは、粉末材料を接合するために液体の結合剤を選択的に堆積させる、汎用性の高い付加製造プロセスです。このプロセスでは、複雑な形状の作成が可能であり、フルカラーのプロトタイプや大量ロットのコンポーネントを製造する際の速度とコスト効率で特に注目されています。直接エネルギー蒸着は、レーザーや電子ビームなどの集束した熱エネルギーを使用し、蒸着時に材料を融合させることで区別されます。DEDは、金属を含むさまざまなマテリアルハンドリングに対応し、グラデーション材料や構造の作成を可能にするため、既存のコンポーネントの修復や機能追加に最適です。熱可塑性フィラメントをノズルから加熱・押し出し、層ごとにパーツを形成します。このプロセスは広く利用されており、プロトタイピング、ツーリング、少量生産に使用され、コストと精度のバランスが取れています。マテリアル・ジェッティングは、UV光で瞬時に硬化するフォトポリマーの液滴を噴射することで、従来のインクジェット・プリンターと同様に動作します。この技術は、高い精度、滑らかな表面、非常に細かいディテールを持つパーツの製造に優れています。複数の素材や色を使ったリアルなプロトタイプに適しています。粉末床融合には、選択的レーザー焼結(SLS)や選択的レーザー溶融(SLM)など、熱エネルギーを使ってプラスチック、金属、セラミック、ガラス粉末の粒子を層ごとに融合させる複数の技術が含まれます。PBFは、優れた機械的特性を持つ強く複雑な部品を製造することができます。シート・ラミネーションは、接着剤、溶接、または超音波エネルギーを使ってシート状の材料を接合し、その後、輪郭を切断して3Dオブジェクトを形成します。この方法は、大きな構造物を作るのにコスト効率がよく、さまざまな材料を組み込むことができます。バット光重合は、光活性重合によって選択的に硬化される光重合樹脂のバットを特徴とします。

技術:費用対効果が高く、ユーザーフレンドリーであることから、溶融堆積モデリング技術の採用が増加しています。

デジタル・ライト・プロセッシング(DLP)は、デジタル・プロジェクターを利用してフォトポリマー樹脂を硬化させ、表面仕上げの良い高精度のパーツを作成します。この技術は、複雑なディテールを必要とする用途に特に有効で、歯科器具や宝飾品の製造に支持を集めています。高速かつ高精度であるため、少量生産でも費用対効果が高いです。電子ビーム溶解(EBM)は、真空チャンバー内で電子ビームを使用して金属粉末を層ごとに溶解します。EBMは、主に航空宇宙産業や医療産業の高価値部品に使用され、非常に高密度で残留応力のない部品を作ります。溶融積層造形(FDM)は、特にプロトタイピングや機能部品に最も広く使用されている3Dプリンティング技術の1つです。熱可塑性フィラメントを加熱したノズルから層ごとに押し出すことで機能します。FDMはコスト効率が高く、ユーザーフレンドリーで、消費者製品、自動車、教育などさまざまな業界に適しています。インクジェット印刷技術は、粉末材料を接合する液体バインダーの液滴を付着させることで部品を印刷します。比較的速いスピードで、複数の材料やフルカラーの印刷が可能です。インクジェット印刷は汎用性が高く、セラミック、金属、鋳型製造用の砂に適用できるが、精度は他の技術に比べて一般的に低いです。積層造形(LOM)は、接着剤でコーティングした紙、プラスチック、金属の積層板を何層にも重ね、ナイフやレーザーで形に合わせて切断することで部品を作る。高速かつ低コストで大型の構造物を製造できます。レーザー金属蒸着(LMD)は、レーザーを使って粉末材料を融合させ、金属構造を作り出す指向性エネルギー蒸着の一形態です。修理や機能追加など、既存の部品に材料を追加することに優れており、工具、航空宇宙、防衛産業で一般的に使用されています。ポリジェット印刷は、硬化可能な液体フォトポリマーをビルドトレイ上に噴射することで機能します。高解像度で滑らかな仕上がりを実現し、複数の素材や色を同時に印刷することができます。複雑な金型、プロトタイプ、さらには消費財や電子機器などの産業における最終使用部品の作成に有益です。選択的レーザー焼結(SLS)は、レーザーを使用して粉末材料を焼結させ、結合させて固体構造を作成します。この技術は材料効率が高く、支持構造を必要とせず、複雑な形状の耐久性のある部品を製造できます。その用途は、自動車、消費財、工業製品などの分野におけるプロトタイプから生産まで多岐にわたる。ステレオリソグラフィー(SLA)は、最も初期の3Dプリンティング手法のひとつで、紫外線レーザーを使用して、バット内の液体樹脂を層ごとに硬化させる。細かいディテールと滑らかな表面仕上げで知られ、プロトタイプやモデルに最適です。様々な種類の樹脂が利用できるため、多様な用途に使用できるが、後処理には手間がかかります。

用途リードタイムを短縮し、新製品の市場投入を早めるために、産業用3Dプリンティングの製造への応用が拡大しています。

産業用3Dプリンティング(積層造形)は、生産プロセスに大きな柔軟性と効率性を提供することで、製造分野に革命をもたらしました。この技術は主に、設計の自由度が高く、複雑でカスタマイズされた部品を作成するために活用されています。従来の減法的製造プロセスと比較して、材料の無駄が大幅に削減されます。3Dプリンティングは、航空宇宙、自動車、ヘルスケアなど、性能と精度が重視される産業向けに、より軽量で強度の高い部品の製造を可能にします。プロトタイピングは、産業用3Dプリンティングの最も一般的な用途のひとつです。デザイナーやエンジニアは、CADモデルから物理的なプロトタイプを素早く製作することができ、設計コンセプトの迅速な反復とテストが可能になります。プロトタイピングを目的とした3Dプリンティングのスピードと費用対効果は、従来の方法をはるかに上回り、製品開発サイクルを大幅に短縮します。この効率性は、より革新的で探求的な設計プロセスを促進するだけでなく、製品をより迅速に市場に投入することにも役立ちます。

エンドユーザー:消費財業界全体で3Dプリンティングの採用が拡大し、製品の迅速性と即応性が確保される

航空宇宙・防衛分野は、3Dプリンティングが提供するカスタマイズ性と複雑性から大きな恩恵を受けています。この技術により、軽量で強度の高い部品が可能になり、燃料消費量の削減と費用対効果の向上につながります。3Dプリントパーツを使用した航空機や軍用機器のメンテナンスは、スピードと即応性を保証し、研究開発および生産において3Dプリントの使用を重要なものとして高めています。消費財の場合、3Dプリンティングはカスタマイズとラピッドプロトタイピングを可能にし、製品開発時間を大幅に短縮し、市場動向への迅速な対応を可能にします。この技術は、玩具、履物、眼鏡、その他の家庭用品の製造に採用されており、多くの場合、従来の製造方法では不可能な複雑なデザインが施されています。食品・料理分野での3Dプリンティングは比較的初期段階にあり、複雑な食品デザインや形状・食感のカスタマイズを可能にしています。また、個別化された栄養のためのソリューションを提供する可能性もあり、代替食材による持続可能な食材を作るための実験も行われています。鋳造・鍛造業界は、金属鋳造用の複雑な鋳型や中子の作成を通じて3Dプリンティングの恩恵を受け、リードタイムとコストを大幅に削減できます。3Dプリンティングは、鋳物工場や鍛造工場に、高価な従来の金型を使用せずにカスタム部品やプロトタイプの小ロットを生産する能力を提供します。ヘルスケアでは、パーソナライズされた医療機器、人工装具、バイオプリンティング、患者固有の手術モデルへの応用により、3Dプリンティングが最も重要な影響の1つとなっています。これらのアプリケーションは、患者自身の解剖学的構造やニーズに合わせて治療や装置をパーソナライズすることで、患者のケアを向上させます。宝飾品の分野では、主にプロトタイピングと複雑で詳細な作品の直接製造に3Dプリンティングが活用されています。これにより、従来の工芸技術では実現できなかった複雑なデザインが可能になり、デザインから製造までのプロセスが合理化されるため、創造性と効率が高まります。石油・ガス業界では、従来のサプライチェーンが論理的に困難で、リードタイムとコストが重要な要素となる分野で、3Dプリンティングが特注部品の製造に使用されています。これには、探査および生産活動用の掘削ツールや機器の製造が含まれます。プリンテッドエレクトロニクスは、軽量でフレキシブルな電子部品のプロトタイピングや製造に3Dプリンティングの恩恵を受けています。この分野は急速に発展しており、3Dプリンティングは、ウェアラブルデバイス、センサー、導電性形状など、電子設計と統合に新たな次元を提供しています。

地域別インサイト

南北アメリカの産業用3Dプリンティング市場は、ラピッドプロトタイピング、カスタマイズ機能、業務効率重視への需要増加などの要因によって力強い成長を遂げています。この地域の強力な製造部門は、複雑なコンポーネントを精密に作成できる3Dプリンティングを採用しています。さらに、南北アメリカの航空宇宙やヘルスケアなどの産業が、合理化された生産や個別化されたアプリケーションのためにこの技術を活用しており、同地域の産業用3Dプリンティング市場全体の拡大に貢献しています。アジア太平洋地域では、産業用3Dプリンティング市場は、特に中国や日本などの国々における製造活動の急増によって活況を呈しています。技術革新が重視され、カスタマイズ製品やプロトタイプの需要が高まっていることが、さまざまな産業で3Dプリンティングの採用を後押ししています。EMEA(欧州・中東・アフリカ)地域では、先進的な製造イニシアティブと持続可能な慣行への注目の組み合わせによって、産業用3Dプリンティング市場が大幅に拡大しています。特に欧州諸国は、航空宇宙やヘルスケア用途の3Dプリンティング統合の最前線にいます。環境への影響の低減を重視する姿勢は、材料の無駄を最小限に抑える技術の能力と一致しており、その採用をさらに後押ししています。EMEA地域は、精密エンジニアリングと革新的なデザインソリューションの両方に産業用3Dプリンティングを活用する業界により、多様な機会の情勢を示しています。

FPNVポジショニング・マトリックス

FPNVポジショニングマトリックスは、産業用3Dプリンティング市場の評価において極めて重要です。事業戦略や製品満足度に関連する主要指標を調査し、ベンダーの包括的な評価を提供します。この綿密な分析により、ユーザーは各自の要件に沿った十分な情報に基づいた意思決定を行うことができます。評価に基づき、ベンダーは成功の度合いが異なる4つの象限に分類されます:フォアフロント(F)、パスファインダー(P)、ニッチ(N)、バイタル(V)です。

市場シェア分析

市場シェア分析は、産業用3Dプリンティング市場におけるベンダーの現状について、洞察に満ちた詳細な調査を提供する包括的なツールです。全体的な収益、顧客基盤、その他の主要指標についてベンダーの貢献度を綿密に比較・分析することで、企業の業績や市場シェア争いの際に直面する課題について理解を深めることができます。さらに、この分析により、調査対象基準年に観察された累積、断片化の優位性、合併の特徴などの要因を含む、この分野の競合特性に関する貴重な考察が得られます。このような詳細レベルの拡大により、ベンダーはより多くの情報に基づいた意思決定を行い、市場で競争優位に立つための効果的な戦略を考案することができます。

本レポートは、以下の側面に関する貴重な洞察を提供しています:

1.市場の浸透度:主要企業が提供する市場に関する包括的な情報を提示しています。

2.市場の開拓度:有利な新興市場を深く掘り下げ、成熟市場セグメントにおける浸透度を分析しています。

3.市場の多様化:新製品の発売、未開拓の地域、最近の開発、投資に関する詳細な情報を提供します。

4.競合の評価と情報:市場シェア、戦略、製品、認証、規制状況、特許状況、主要企業の製造能力について徹底的な評価を行います。

5.製品開発およびイノベーション:将来の技術、研究開発活動、画期的な製品開発に関する知的洞察を提供します。

本レポートは、以下のような主要な質問に対応しています:

1.産業用3Dプリンティング市場の市場規模および予測は?

2.産業用3Dプリンティング市場の予測期間中に投資を検討すべき製品、セグメント、用途、分野は何か?

3.産業用3Dプリンティング市場の技術動向と規制枠組みは?

4.産業用3Dプリンティング市場における主要ベンダーの市場シェアは?

5.産業用3Dプリンティング市場への参入に適した形態や戦略的手段は?

目次

第1章 序文

第2章 調査手法

第3章 エグゼクティブサマリー

第4章 市場の概要

第5章 市場洞察

  • 市場力学
    • 促進要因
      • 製造の柔軟性向上の必要性が高まる中、デジタル変革が進む
      • 航空宇宙産業と自動車産業における3Dプリントの導入増加
      • 3Dプリントを支援する政府投資の増加
    • 抑制要因
      • 産業用3Dプリンティングソリューションの開発コストが高い
    • 機会
      • 技術的に高度な3Dプリントソリューションのイントロダクションの増加
      • 持続可能性とカスタマイズされたソリューションへの重点の高まり
    • 課題
      • 産業用3Dプリンティングソリューションには特定の技術的制限があります
  • 市場セグメンテーション分析
    • 提供内容:品質検査のために現実世界の物体をデジタル化するソフトウェアの採用が増加
    • プロセス:試作および少量生産向けの材料押し出しプロセスの高い可能性
    • 技術:コスト効率とユーザーフレンドリーさから、熱溶解積層法の採用が増加
    • アプリケーション:製造業における産業用3Dプリンティングの適用が拡大し、リードタイムが短縮され、新製品の市場投入までの時間が短縮されます。
    • エンドユーザー:製品のスピードと準備を確実にするために、消費財業界全体で3Dプリントの採用が拡大しています。
  • 市場ディスラプション分析
  • ポーターのファイブフォース分析
  • バリューチェーンとクリティカルパス分析
  • 価格分析
  • 技術分析
  • 特許分析
  • 貿易分析
  • 規制枠組みの分析

第6章 産業用3Dプリンティング市場:提供別

  • 材料
  • プリンター
  • サービス
  • ソフトウェア

第7章 産業用3Dプリンティング市場:プロセス別

  • バインダージェッティング
  • 直接エネルギー蓄積
  • 材料押し出し
  • マテリアルジェッティング
  • パウダーベッドフュージョン
  • シートラミネート
  • バット光重合

第8章 産業用3Dプリンティング市場:技術別

  • デジタル光処理
  • 直接金属レーザー焼結
  • 電子ビーム溶解
  • 熱溶解積層法
  • インクジェット印刷
  • 積層造形物製造
  • レーザー金属堆積
  • ポリジェット印刷
  • 選択的レーザー焼結
  • ステレオリソグラフィー

第9章 産業用3Dプリンティング市場:用途別

  • 製造業
  • プロトタイピング

第10章 産業用3Dプリンティング市場:エンドユーザー別

  • 航空宇宙および防衛
  • 自動車
  • 消費財
  • 食品と料理
  • 鋳造と鍛造
  • ヘルスケア
  • ジュエリー
  • 石油ガス
  • プリンテッドエレクトロニクス

第11章 南北アメリカの産業用3Dプリンティング市場

  • アルゼンチン
  • ブラジル
  • カナダ
  • メキシコ
  • 米国

第12章 アジア太平洋地域の産業用3Dプリンティング市場

  • オーストラリア
  • 中国
  • インド
  • インドネシア
  • 日本
  • マレーシア
  • フィリピン
  • シンガポール
  • 韓国
  • 台湾
  • タイ
  • ベトナム

第13章 欧州・中東・アフリカの産業用3Dプリンティング市場

  • デンマーク
  • エジプト
  • フィンランド
  • フランス
  • ドイツ
  • イスラエル
  • イタリア
  • オランダ
  • ナイジェリア
  • ノルウェー
  • ポーランド
  • カタール
  • ロシア
  • サウジアラビア
  • 南アフリカ
  • スペイン
  • スウェーデン
  • スイス
  • トルコ
  • アラブ首長国連邦
  • 英国

第14章 競合情勢

  • 市場シェア分析2023
  • FPNVポジショニングマトリックス、2023
  • 競合シナリオ分析
    • Eplus3DとIGO3Dが金属3Dプリントの戦略的提携を発表
    • Azul 3D、3Dプリント技術の進歩に向けてシリーズA資金調達で1,500万米ドルを調達
    • HPとマテリアライズが提携し、3Dプリントの量産化を推進
  • 戦略分析と提言

第15章 競合ポートフォリオ

  • 主要企業プロファイル
  • 主要製品ポートフォリオ
図表

LIST OF FIGURES

  • FIGURE 1. INDUSTRIAL 3D PRINTING MARKET RESEARCH PROCESS
  • FIGURE 2. INDUSTRIAL 3D PRINTING MARKET SIZE, 2023 VS 2030
  • FIGURE 3. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, 2018-2030 (USD MILLION)
  • FIGURE 4. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY REGION, 2023 VS 2030 (%)
  • FIGURE 5. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY REGION, 2023 VS 2024 VS 2030 (USD MILLION)
  • FIGURE 6. INDUSTRIAL 3D PRINTING MARKET DYNAMICS
  • FIGURE 7. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2023 VS 2030 (%)
  • FIGURE 8. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2023 VS 2024 VS 2030 (USD MILLION)
  • FIGURE 9. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2023 VS 2030 (%)
  • FIGURE 10. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2023 VS 2024 VS 2030 (USD MILLION)
  • FIGURE 11. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2023 VS 2030 (%)
  • FIGURE 12. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2023 VS 2024 VS 2030 (USD MILLION)
  • FIGURE 13. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2023 VS 2030 (%)
  • FIGURE 14. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2023 VS 2024 VS 2030 (USD MILLION)
  • FIGURE 15. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2023 VS 2030 (%)
  • FIGURE 16. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2023 VS 2024 VS 2030 (USD MILLION)
  • FIGURE 17. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY COUNTRY, 2023 VS 2030 (%)
  • FIGURE 18. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY COUNTRY, 2023 VS 2024 VS 2030 (USD MILLION)
  • FIGURE 19. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY STATE, 2023 VS 2030 (%)
  • FIGURE 20. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY STATE, 2023 VS 2024 VS 2030 (USD MILLION)
  • FIGURE 21. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY COUNTRY, 2023 VS 2030 (%)
  • FIGURE 22. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY COUNTRY, 2023 VS 2024 VS 2030 (USD MILLION)
  • FIGURE 23. EUROPE, MIDDLE EAST & AFRICA INDUSTRIAL 3D PRINTING MARKET SIZE, BY COUNTRY, 2023 VS 2030 (%)
  • FIGURE 24. EUROPE, MIDDLE EAST & AFRICA INDUSTRIAL 3D PRINTING MARKET SIZE, BY COUNTRY, 2023 VS 2024 VS 2030 (USD MILLION)
  • FIGURE 25. INDUSTRIAL 3D PRINTING MARKET SHARE, BY KEY PLAYER, 2023
  • FIGURE 26. INDUSTRIAL 3D PRINTING MARKET, FPNV POSITIONING MATRIX, 2023

LIST OF TABLES

  • TABLE 1. INDUSTRIAL 3D PRINTING MARKET SEGMENTATION & COVERAGE
  • TABLE 2. UNITED STATES DOLLAR EXCHANGE RATE, 2018-2023
  • TABLE 3. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, 2018-2023 (USD MILLION)
  • TABLE 4. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, 2024-2030 (USD MILLION)
  • TABLE 5. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 6. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 7. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2018-2023 (USD MILLION)
  • TABLE 8. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2024-2030 (USD MILLION)
  • TABLE 9. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 10. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 11. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2018-2023 (USD MILLION)
  • TABLE 12. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2024-2030 (USD MILLION)
  • TABLE 13. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 14. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 15. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2018-2023 (USD MILLION)
  • TABLE 16. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2024-2030 (USD MILLION)
  • TABLE 17. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY GLASS, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 18. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY GLASS, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 19. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY QUARTZ, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 20. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY QUARTZ, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 21. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SILICA, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 22. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SILICA, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 23. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 24. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 25. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2018-2023 (USD MILLION)
  • TABLE 26. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2024-2030 (USD MILLION)
  • TABLE 27. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY ALUMINUM, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 28. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY ALUMINUM, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 29. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY COBALT-CHROMIUM, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 30. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY COBALT-CHROMIUM, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 31. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY GOLD, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 32. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY GOLD, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 33. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY INCONEL, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 34. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY INCONEL, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 35. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SILVER, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 36. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SILVER, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 37. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY STEEL, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 38. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY STEEL, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 39. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY TITANIUM, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 40. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY TITANIUM, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 41. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 42. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 43. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2018-2023 (USD MILLION)
  • TABLE 44. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2024-2030 (USD MILLION)
  • TABLE 45. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY NYLON, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 46. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY NYLON, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 47. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PHOTOPOLYMERS, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 48. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PHOTOPOLYMERS, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 49. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY POLYCARBONATE, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 50. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY POLYCARBONATE, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 51. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY POLYLACTIC ACID, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 52. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY POLYLACTIC ACID, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 53. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY POLYPROPYLENE, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 54. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY POLYPROPYLENE, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 55. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY POLYVINYL ALCOHOL, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 56. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY POLYVINYL ALCOHOL, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 57. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY THERMOPLASTICS, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 58. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY THERMOPLASTICS, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 59. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PRINTERS, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 60. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PRINTERS, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 61. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 62. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 63. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2018-2023 (USD MILLION)
  • TABLE 64. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2024-2030 (USD MILLION)
  • TABLE 65. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY CONSULTING SERVICES, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 66. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY CONSULTING SERVICES, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 67. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MANUFACTURING SERVICES, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 68. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MANUFACTURING SERVICES, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 69. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 70. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 71. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2018-2023 (USD MILLION)
  • TABLE 72. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2024-2030 (USD MILLION)
  • TABLE 73. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY DESIGN SOFTWARE, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 74. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY DESIGN SOFTWARE, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 75. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY INSPECTION SOFTWARE, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 76. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY INSPECTION SOFTWARE, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 77. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PRINTING SOFTWARE, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 78. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PRINTING SOFTWARE, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 79. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SCANNING SOFTWARE, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 80. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SCANNING SOFTWARE, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 81. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2018-2023 (USD MILLION)
  • TABLE 82. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2024-2030 (USD MILLION)
  • TABLE 83. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY BINDER JETTING, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 84. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY BINDER JETTING, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 85. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY DIRECT ENERGY DEPOSITION, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 86. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY DIRECT ENERGY DEPOSITION, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 87. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIAL EXTRUSION, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 88. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIAL EXTRUSION, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 89. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIAL JETTING, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 90. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIAL JETTING, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 91. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY POWDER BED FUSION, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 92. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY POWDER BED FUSION, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 93. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SHEET LAMINATION, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 94. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SHEET LAMINATION, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 95. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY VAT PHOTOPOLYMERIZATION, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 96. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY VAT PHOTOPOLYMERIZATION, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 97. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2018-2023 (USD MILLION)
  • TABLE 98. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2024-2030 (USD MILLION)
  • TABLE 99. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY DIGITAL LIGHT PROCESSING, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 100. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY DIGITAL LIGHT PROCESSING, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 101. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY DIRECT METAL LASER SINTERING, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 102. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY DIRECT METAL LASER SINTERING, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 103. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY ELECTRON BEAM MELTING, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 104. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY ELECTRON BEAM MELTING, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 105. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY FUSED DEPOSITION MODELLING, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 106. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY FUSED DEPOSITION MODELLING, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 107. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY INKJET PRINTING, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 108. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY INKJET PRINTING, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 109. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY LAMINATED OBJECT MANUFACTURING, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 110. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY LAMINATED OBJECT MANUFACTURING, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 111. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY LASER METAL DEPOSITION, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 112. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY LASER METAL DEPOSITION, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 113. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY POLY-JET PRINTING, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 114. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY POLY-JET PRINTING, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 115. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SELECTIVE LASER SINTERING, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 116. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SELECTIVE LASER SINTERING, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 117. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY STEREOLITHOGRAPHY, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 118. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY STEREOLITHOGRAPHY, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 119. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2018-2023 (USD MILLION)
  • TABLE 120. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2024-2030 (USD MILLION)
  • TABLE 121. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MANUFACTURING, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 122. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MANUFACTURING, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 123. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROTOTYPING, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 124. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROTOTYPING, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 125. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2018-2023 (USD MILLION)
  • TABLE 126. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2024-2030 (USD MILLION)
  • TABLE 127. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY AEROSPACE & DEFENSE, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 128. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY AEROSPACE & DEFENSE, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 129. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY AUTOMOTIVE, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 130. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY AUTOMOTIVE, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 131. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY CONSUMER GOODS, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 132. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY CONSUMER GOODS, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 133. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY FOOD & CULINARY, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 134. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY FOOD & CULINARY, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 135. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY FOUNDRY & FORGING, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 136. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY FOUNDRY & FORGING, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 137. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY HEALTHCARE, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 138. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY HEALTHCARE, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 139. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY JEWELRY, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 140. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY JEWELRY, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 141. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY OIL & GAS, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 142. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY OIL & GAS, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 143. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PRINTED ELECTRONICS, BY REGION, 2018-2023 (USD MILLION)
  • TABLE 144. GLOBAL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PRINTED ELECTRONICS, BY REGION, 2024-2030 (USD MILLION)
  • TABLE 145. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2018-2023 (USD MILLION)
  • TABLE 146. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2024-2030 (USD MILLION)
  • TABLE 147. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2018-2023 (USD MILLION)
  • TABLE 148. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2024-2030 (USD MILLION)
  • TABLE 149. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2018-2023 (USD MILLION)
  • TABLE 150. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2024-2030 (USD MILLION)
  • TABLE 151. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2018-2023 (USD MILLION)
  • TABLE 152. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2024-2030 (USD MILLION)
  • TABLE 153. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2018-2023 (USD MILLION)
  • TABLE 154. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2024-2030 (USD MILLION)
  • TABLE 155. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2018-2023 (USD MILLION)
  • TABLE 156. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2024-2030 (USD MILLION)
  • TABLE 157. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2018-2023 (USD MILLION)
  • TABLE 158. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2024-2030 (USD MILLION)
  • TABLE 159. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2018-2023 (USD MILLION)
  • TABLE 160. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2024-2030 (USD MILLION)
  • TABLE 161. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2018-2023 (USD MILLION)
  • TABLE 162. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2024-2030 (USD MILLION)
  • TABLE 163. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2018-2023 (USD MILLION)
  • TABLE 164. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2024-2030 (USD MILLION)
  • TABLE 165. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2018-2023 (USD MILLION)
  • TABLE 166. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2024-2030 (USD MILLION)
  • TABLE 167. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY COUNTRY, 2018-2023 (USD MILLION)
  • TABLE 168. AMERICAS INDUSTRIAL 3D PRINTING MARKET SIZE, BY COUNTRY, 2024-2030 (USD MILLION)
  • TABLE 169. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2018-2023 (USD MILLION)
  • TABLE 170. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2024-2030 (USD MILLION)
  • TABLE 171. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2018-2023 (USD MILLION)
  • TABLE 172. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2024-2030 (USD MILLION)
  • TABLE 173. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2018-2023 (USD MILLION)
  • TABLE 174. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2024-2030 (USD MILLION)
  • TABLE 175. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2018-2023 (USD MILLION)
  • TABLE 176. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2024-2030 (USD MILLION)
  • TABLE 177. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2018-2023 (USD MILLION)
  • TABLE 178. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2024-2030 (USD MILLION)
  • TABLE 179. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2018-2023 (USD MILLION)
  • TABLE 180. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2024-2030 (USD MILLION)
  • TABLE 181. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2018-2023 (USD MILLION)
  • TABLE 182. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2024-2030 (USD MILLION)
  • TABLE 183. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2018-2023 (USD MILLION)
  • TABLE 184. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2024-2030 (USD MILLION)
  • TABLE 185. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2018-2023 (USD MILLION)
  • TABLE 186. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2024-2030 (USD MILLION)
  • TABLE 187. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2018-2023 (USD MILLION)
  • TABLE 188. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2024-2030 (USD MILLION)
  • TABLE 189. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2018-2023 (USD MILLION)
  • TABLE 190. ARGENTINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2024-2030 (USD MILLION)
  • TABLE 191. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2018-2023 (USD MILLION)
  • TABLE 192. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2024-2030 (USD MILLION)
  • TABLE 193. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2018-2023 (USD MILLION)
  • TABLE 194. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2024-2030 (USD MILLION)
  • TABLE 195. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2018-2023 (USD MILLION)
  • TABLE 196. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2024-2030 (USD MILLION)
  • TABLE 197. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2018-2023 (USD MILLION)
  • TABLE 198. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2024-2030 (USD MILLION)
  • TABLE 199. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2018-2023 (USD MILLION)
  • TABLE 200. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2024-2030 (USD MILLION)
  • TABLE 201. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2018-2023 (USD MILLION)
  • TABLE 202. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2024-2030 (USD MILLION)
  • TABLE 203. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2018-2023 (USD MILLION)
  • TABLE 204. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2024-2030 (USD MILLION)
  • TABLE 205. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2018-2023 (USD MILLION)
  • TABLE 206. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2024-2030 (USD MILLION)
  • TABLE 207. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2018-2023 (USD MILLION)
  • TABLE 208. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2024-2030 (USD MILLION)
  • TABLE 209. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2018-2023 (USD MILLION)
  • TABLE 210. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2024-2030 (USD MILLION)
  • TABLE 211. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2018-2023 (USD MILLION)
  • TABLE 212. BRAZIL INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2024-2030 (USD MILLION)
  • TABLE 213. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2018-2023 (USD MILLION)
  • TABLE 214. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2024-2030 (USD MILLION)
  • TABLE 215. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2018-2023 (USD MILLION)
  • TABLE 216. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2024-2030 (USD MILLION)
  • TABLE 217. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2018-2023 (USD MILLION)
  • TABLE 218. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2024-2030 (USD MILLION)
  • TABLE 219. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2018-2023 (USD MILLION)
  • TABLE 220. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2024-2030 (USD MILLION)
  • TABLE 221. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2018-2023 (USD MILLION)
  • TABLE 222. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2024-2030 (USD MILLION)
  • TABLE 223. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2018-2023 (USD MILLION)
  • TABLE 224. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2024-2030 (USD MILLION)
  • TABLE 225. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2018-2023 (USD MILLION)
  • TABLE 226. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2024-2030 (USD MILLION)
  • TABLE 227. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2018-2023 (USD MILLION)
  • TABLE 228. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2024-2030 (USD MILLION)
  • TABLE 229. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2018-2023 (USD MILLION)
  • TABLE 230. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2024-2030 (USD MILLION)
  • TABLE 231. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2018-2023 (USD MILLION)
  • TABLE 232. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2024-2030 (USD MILLION)
  • TABLE 233. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2018-2023 (USD MILLION)
  • TABLE 234. CANADA INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2024-2030 (USD MILLION)
  • TABLE 235. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2018-2023 (USD MILLION)
  • TABLE 236. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2024-2030 (USD MILLION)
  • TABLE 237. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2018-2023 (USD MILLION)
  • TABLE 238. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2024-2030 (USD MILLION)
  • TABLE 239. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2018-2023 (USD MILLION)
  • TABLE 240. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2024-2030 (USD MILLION)
  • TABLE 241. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2018-2023 (USD MILLION)
  • TABLE 242. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2024-2030 (USD MILLION)
  • TABLE 243. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2018-2023 (USD MILLION)
  • TABLE 244. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2024-2030 (USD MILLION)
  • TABLE 245. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2018-2023 (USD MILLION)
  • TABLE 246. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2024-2030 (USD MILLION)
  • TABLE 247. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2018-2023 (USD MILLION)
  • TABLE 248. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2024-2030 (USD MILLION)
  • TABLE 249. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2018-2023 (USD MILLION)
  • TABLE 250. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2024-2030 (USD MILLION)
  • TABLE 251. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2018-2023 (USD MILLION)
  • TABLE 252. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2024-2030 (USD MILLION)
  • TABLE 253. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2018-2023 (USD MILLION)
  • TABLE 254. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2024-2030 (USD MILLION)
  • TABLE 255. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2018-2023 (USD MILLION)
  • TABLE 256. MEXICO INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2024-2030 (USD MILLION)
  • TABLE 257. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2018-2023 (USD MILLION)
  • TABLE 258. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2024-2030 (USD MILLION)
  • TABLE 259. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2018-2023 (USD MILLION)
  • TABLE 260. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2024-2030 (USD MILLION)
  • TABLE 261. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2018-2023 (USD MILLION)
  • TABLE 262. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2024-2030 (USD MILLION)
  • TABLE 263. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2018-2023 (USD MILLION)
  • TABLE 264. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2024-2030 (USD MILLION)
  • TABLE 265. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2018-2023 (USD MILLION)
  • TABLE 266. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2024-2030 (USD MILLION)
  • TABLE 267. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2018-2023 (USD MILLION)
  • TABLE 268. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2024-2030 (USD MILLION)
  • TABLE 269. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2018-2023 (USD MILLION)
  • TABLE 270. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2024-2030 (USD MILLION)
  • TABLE 271. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2018-2023 (USD MILLION)
  • TABLE 272. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2024-2030 (USD MILLION)
  • TABLE 273. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2018-2023 (USD MILLION)
  • TABLE 274. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2024-2030 (USD MILLION)
  • TABLE 275. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2018-2023 (USD MILLION)
  • TABLE 276. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2024-2030 (USD MILLION)
  • TABLE 277. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2018-2023 (USD MILLION)
  • TABLE 278. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2024-2030 (USD MILLION)
  • TABLE 279. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY STATE, 2018-2023 (USD MILLION)
  • TABLE 280. UNITED STATES INDUSTRIAL 3D PRINTING MARKET SIZE, BY STATE, 2024-2030 (USD MILLION)
  • TABLE 281. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2018-2023 (USD MILLION)
  • TABLE 282. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2024-2030 (USD MILLION)
  • TABLE 283. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2018-2023 (USD MILLION)
  • TABLE 284. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2024-2030 (USD MILLION)
  • TABLE 285. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2018-2023 (USD MILLION)
  • TABLE 286. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2024-2030 (USD MILLION)
  • TABLE 287. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2018-2023 (USD MILLION)
  • TABLE 288. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2024-2030 (USD MILLION)
  • TABLE 289. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2018-2023 (USD MILLION)
  • TABLE 290. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2024-2030 (USD MILLION)
  • TABLE 291. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2018-2023 (USD MILLION)
  • TABLE 292. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2024-2030 (USD MILLION)
  • TABLE 293. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2018-2023 (USD MILLION)
  • TABLE 294. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2024-2030 (USD MILLION)
  • TABLE 295. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2018-2023 (USD MILLION)
  • TABLE 296. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2024-2030 (USD MILLION)
  • TABLE 297. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2018-2023 (USD MILLION)
  • TABLE 298. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2024-2030 (USD MILLION)
  • TABLE 299. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2018-2023 (USD MILLION)
  • TABLE 300. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2024-2030 (USD MILLION)
  • TABLE 301. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2018-2023 (USD MILLION)
  • TABLE 302. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2024-2030 (USD MILLION)
  • TABLE 303. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY COUNTRY, 2018-2023 (USD MILLION)
  • TABLE 304. ASIA-PACIFIC INDUSTRIAL 3D PRINTING MARKET SIZE, BY COUNTRY, 2024-2030 (USD MILLION)
  • TABLE 305. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2018-2023 (USD MILLION)
  • TABLE 306. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2024-2030 (USD MILLION)
  • TABLE 307. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2018-2023 (USD MILLION)
  • TABLE 308. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2024-2030 (USD MILLION)
  • TABLE 309. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2018-2023 (USD MILLION)
  • TABLE 310. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2024-2030 (USD MILLION)
  • TABLE 311. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2018-2023 (USD MILLION)
  • TABLE 312. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2024-2030 (USD MILLION)
  • TABLE 313. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2018-2023 (USD MILLION)
  • TABLE 314. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY PLASTICS, 2024-2030 (USD MILLION)
  • TABLE 315. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2018-2023 (USD MILLION)
  • TABLE 316. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY SERVICES, 2024-2030 (USD MILLION)
  • TABLE 317. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2018-2023 (USD MILLION)
  • TABLE 318. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY SOFTWARE, 2024-2030 (USD MILLION)
  • TABLE 319. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2018-2023 (USD MILLION)
  • TABLE 320. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY PROCESS, 2024-2030 (USD MILLION)
  • TABLE 321. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2018-2023 (USD MILLION)
  • TABLE 322. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY TECHNOLOGY, 2024-2030 (USD MILLION)
  • TABLE 323. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2018-2023 (USD MILLION)
  • TABLE 324. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY APPLICATION, 2024-2030 (USD MILLION)
  • TABLE 325. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2018-2023 (USD MILLION)
  • TABLE 326. AUSTRALIA INDUSTRIAL 3D PRINTING MARKET SIZE, BY END USER, 2024-2030 (USD MILLION)
  • TABLE 327. CHINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2018-2023 (USD MILLION)
  • TABLE 328. CHINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING, 2024-2030 (USD MILLION)
  • TABLE 329. CHINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2018-2023 (USD MILLION)
  • TABLE 330. CHINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY MATERIALS, 2024-2030 (USD MILLION)
  • TABLE 331. CHINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2018-2023 (USD MILLION)
  • TABLE 332. CHINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY CERAMICS, 2024-2030 (USD MILLION)
  • TABLE 333. CHINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2018-2023 (USD MILLION)
  • TABLE 334. CHINA INDUSTRIAL 3D PRINTING MARKET SIZE, BY METALS, 2024-2030 (USD MILLION)
  • TABLE 335. CHINA INDUSTRIAL 3D PRINTING MARKET SIZE,
目次
Product Code: MRR-4F4C36263878

[182 Pages Report] The Industrial 3D Printing Market size was estimated at USD 3.59 billion in 2023 and expected to reach USD 4.15 billion in 2024, at a CAGR 16.55% to reach USD 10.50 billion by 2030.

Industrial 3D printing, also referred to as additive manufacturing, involves the layer-by-layer construction of three-dimensional objects from digital models. Increasing demand for rapid prototyping, allowing for quick and cost-effective product development, is driving the growth of the industrial 3D printing market. The technology's ability to produce complex geometries and customized components is another significant driver, enabling manufacturers to address diverse needs. Additionally, the pursuit of operational efficiency and reduced waste in manufacturing processes further fuels the adoption of industrial 3D printing. Material limitations and quality control and standardization issues hamper the industrial 3D printing market. Growing adoption in the healthcare sector where personalized medical devices and implants can be tailored to individual patients is expected to create a platform for market growth. Rising research & development activities by market vendors to introduce novel industrial 3D printing solutions are expected to create opportunities for market growth.

KEY MARKET STATISTICS
Base Year [2023] USD 3.59 billion
Estimated Year [2024] USD 4.15 billion
Forecast Year [2030] USD 10.50 billion
CAGR (%) 16.55%

Offering: Growing adoption of software to digitize real-world objects for quality inspection

Materials in industrial 3D printing including ceramics, offer potential in high-temperature applications and biocompatibility. Glass, quartz, and silica are known for transparency and purity and are significant for optics and photonics. Print precision and the removal of internal stresses are key areas for development. High demand exists for metals such as aluminum, cobalt-chromium, gold, Inconel, silver, steel, and titanium. Each metal requires particular print environments and post-processing standards. Diverse polymers, including nylon, photopolymers, polycarbonate, polylactic acid, polypropylene, polyvinyl alcohol, and various thermoplastics, cater to a broad range of application requirements. The market offers a variety of printers catering to different scales of production and capable of processing the aforementioned materials. Considerations for users include print volume capacity, speed, resolution, reliability, and cost of operation. Printers are being operated for professional printing, producing lightweight and complex shapes for high-value products, ranging from aircraft to racing cars. The growth of the printer segment can be attributed to the changing perception of 3D printing and its development as a maturing manufacturing solution. Small businesses are adopting desktop printers and diversifying their operations to offer 3D printing and other related services, ensuring accuracy. These services are further divided into consulting and manufacturing services, in which consulting services navigate a budding manufacturing player to adopt the emerging 3D technology into their business processes. Consulting service in 3D printing provides information about the suitable methods to integrate additive manufacturing technologies within manufacturing and business models. Manufacturing services ensure that the concept grows into a finished product equipped for the industries of today and tomorrow, which helps create visually striking prototypes that enhance the purpose and functionality of 3D-printed parts. Manufacturing services empower 3D printing customers to keep tight production deadlines and meet the quality standards of even the most demanding industries. Industrial 3D printing software is regarded as the industry standard for computer graphics, with an unrivaled set of features and tools. This software is segmented into the design, inspection, printing, and scanning software. Design software is used to construct the object's designs to be printed, particularly in aerospace and defense, automotive and construction, and engineering verticals. Design software works as a bridge between the objects to be printed and the printer's hardware. 3D printing focuses on providing design software with a unique user interface and advanced features to work with high precision. 3D inspection for industrial parts in which the shape and dimensional analysis are performed in a 3D way is an application for a complicated part with challenging profiles or features that conventionally take time, such as CMM and tactile measurement systems. 3D printing software tools focus on programs that help execute a 3D print. Printing software is a cloud-based 3D CAD program that utilizes the power of the cloud to bring design teams together and collaborate on complex projects. Scanning software scans objects and stores scanned documents and images of them irrespective of their size or measurements for 3D printing of these objects.

Process: High potential of material extrusion process for prototyping and low-volume production

Binder jetting is a versatile additive manufacturing process in which a liquid binding agent is selectively deposited to join powder materials. This process allows for the creation of complex geometries and is particularly noted for its speed and cost-effectiveness when producing full-color prototypes or large batches of components. Direct energy deposition is distinguished by its use of focused thermal energy such as a laser or electron beam-to fuse materials as they are deposited. DED is ideal for repairing or adding features to existing components, handling a variety of materials, including metals, allowing for the creation of gradient materials or structures. Material Extrusion involves the heating and extrusion of a material, commonly thermoplastic filament, through a nozzle to build parts layer by layer. This process is widely accessible and used for prototyping, tooling, or low-volume production, offering a good balance between cost and precision. Material jetting operates similarly to a traditional inkjet printer by jetting droplets of photopolymer that are instantly cured by UV light. This technology excels at producing parts with high accuracy, smooth surfaces, and very fine details. It's suitable for realistic prototypes with multiple materials and colors. Powder bed fusion encompasses several technologies, including selective laser sintering (SLS) and selective laser melting (SLM), which use thermal energy to fuse particles of plastic, metal, ceramic, or glass powders layer by layer. PBF is capable of producing strong and complex parts with good mechanical properties. Sheet lamination binds sheets of material together using adhesives, welding, or ultrasonic energy, then cuts the outline to form a 3D object. This method is cost-effective for creating large structures and can incorporate a wide variety of materials. Vat photopolymerization is characterized by a vat of photopolymer resin that is selectively cured by light-activated polymerization.

Technology: Rising adoption of fused deposition modeling technology due to its cost-effective and user-friendly nature

Digital light processing (DLP) utilizes a digital projector to cure photopolymer resin, creating highly accurate parts with good surface finish. The technology is particularly useful for applications requiring intricate details and is gaining traction for the production of dental devices and jewelry. It is cost-effective for small-batch production due to its high speed and precision. Electron beam melting (EBM) uses an electron beam to melt metal powder, layer by layer, in a vacuum chamber. Primarily used for high-value components in the aerospace and medical industries, EBM creates parts that are very dense and free from residual stresses. Fused deposition modeling (FDM) is one of the most widely used 3D printing technologies, especially for prototyping and functional parts. It works by extruding thermoplastic filaments through a heated nozzle, layer by layer. FDM is cost-effective and user-friendly, suitable for a range of industries including consumer products, automotive, and education. Inkjet printing technology prints parts by depositing droplets of a liquid binder to join powder material. It allows multi-material and full-color printing with relatively fast speeds. Inkjet printing is versatile and can be applied to ceramics, metals, and sand for foundry mold production, though accuracy is generally lower compared to other technologies. Laminated object manufacturing (LOM) builds parts by stacking layers of adhesive-coated paper, plastic, or metal laminates and cutting them to shape with a knife or laser. It is capable of producing large structures with high speed and low cost. Laser metal deposition (LMD) is a form of directed energy deposition that uses a laser to create metallic structures by fusing powdered material. It excels at adding material to existing parts, such as for repairs or feature addition, and is commonly used in the tooling, aerospace, and defense industries. PolyJet printing works by jetting layers of curable liquid photopolymer onto a build tray. It offers high-resolution, smooth finishes, and can print parts with multiple materials and colors simultaneously. It is beneficial for creating complex molds, prototypes, and even end-use parts in industries such as consumer goods and electronics. Selective laser sintering (SLS) uses a laser to sinter powdered material, bonding it together to create a solid structure. This technology is material-efficient, requires no support structures, and can produce durable parts with complex geometries. Its applications span from prototyping to production in sectors such as automotive, consumer goods, and industrial products. Stereolithography (SLA) is one of the earliest 3D printing methods, using an ultraviolet laser to cure liquid resin in a vat layer by layer. It is known for its fine details and smooth surface finishes, making it ideal for prototypes and models. The availability of various resin types allows for diverse applications, though post-processing can be labor-intensive.

Application: Growing application of industrial 3D printing for manufacturing to reduce lead times and accelerates time-to-market for new products

Industrial 3D printing, or additive manufacturing, has revolutionized the manufacturing sector by offering significant flexibility and efficiency in production processes. This technology is primarily leveraged for creating complex and customized parts with a high degree of design freedom. It significantly reduces material wastage compared to traditional subtractive manufacturing processes. 3D printing enables the production of lighter and stronger components for industries such as aerospace, automotive, and healthcare, where performance and precision are critical. Prototyping is one of the initial and most common applications of industrial 3D printing. It provides designers and engineers with the ability to quickly fabricate physical prototypes from CAD models, allowing for rapid iteration and testing of design concepts. The speed and cost-effectiveness of 3D printing for prototyping purposes far surpass conventional methods, drastically shortening the product development cycle. This efficiency not only facilitates more innovative and explorative design processes but also helps bring products to market more swiftly.

End User: Growing adoption of 3D printing across the consumer goods industry to ensure speed and readiness of products

The aerospace & defense sectors greatly benefit from the customization and complexity that 3D printing offers. The technology allows for lightweight and strong components, which leads to reduced fuel consumption and improved cost-effectiveness. Maintenance of aircraft and military equipment using 3D printed parts ensures speed and readiness, elevating its use as critical in R&D and production. For consumer goods, 3D printing enables customization and rapid prototyping, significantly cutting down product development time and allowing for quick responses to market trends. This technology is employed to produce toys, footwear, eyewear, and other home items, often with intricate designs not possible through traditional manufacturing methods. 3D printing in the food & culinary sector is relatively nascent, allowing for complex food designs and customization in terms of shapes and textures. It also potentially offers solutions for personalized nutrition and is being experimented with for creating sustainable food sources through alternative ingredients. The foundry & forging industry benefits from 3D printing through the creation of complex molds and cores for metal casting, significantly decreasing the lead time and cost. It provides foundries and forges with the capability to produce small batches of custom parts or prototypes without the need for expensive traditional tooling. Healthcare sees one of the most significant impacts of 3D printing with applications in personalized medical devices, prosthetics, bioprinting, and patient-specific surgical models. These applications improve patient care by personalizing treatment and devices to the patient's own anatomy and needs. The jewelry sector utilizes 3D printing primarily for prototyping and the direct manufacturing of complex, detailed pieces. This allows for intricate design unmatched by traditional crafting techniques and provides a streamlined process from design to production, fostering creativity and efficiency. In oil & gas, 3D printing is used for producing bespoke parts in areas where traditional supply chains are logistically challenging, with lead times and costs being significant factors. This includes the manufacturing of drilling tools and equipment for exploration and production activities. Printed electronics benefit from 3D printing for the prototyping and production of lightweight, flexible electronic components. This sector is rapidly evolving, with 3D printing offering a new dimension to electronic design and integration, such as in wearable devices, sensors, and conductive geometries.

Regional Insights

The industrial 3D printing market in the Americas is experiencing robust growth driven by factors such as increased demand for rapid prototyping, customization capabilities, and a focus on operational efficiency. The region's strong manufacturing sector is adopting 3D printing for its ability to create complex components with precision. Additionally, industries, including aerospace and healthcare in the Americas, are leveraging this technology for streamlined production and personalized applications, contributing to the overall expansion of the industrial 3D printing market in the region. In the Asia-Pacific region, the industrial 3D printing market is flourishing due to a surge in manufacturing activities, particularly in countries such as China and Japan. The emphasis on technological innovation, coupled with the growing demand for customized products and prototypes, propels the adoption of 3D printing across various industries. In the EMEA region, the industrial 3D printing market is witnessing substantial expansion driven by a combination of advanced manufacturing initiatives and a focus on sustainable practices. European countries, in particular, are at the forefront of integrating 3D printing for aerospace and healthcare applications. The emphasis on reducing environmental impact aligns with the technology's capacity to minimize material waste, further boosting its adoption. The EMEA region showcases a diverse landscape of opportunities, with industries leveraging industrial 3D printing for both precision engineering and innovative design solutions.

FPNV Positioning Matrix

The FPNV Positioning Matrix is pivotal in evaluating the Industrial 3D Printing Market. It offers a comprehensive assessment of vendors, examining key metrics related to Business Strategy and Product Satisfaction. This in-depth analysis empowers users to make well-informed decisions aligned with their requirements. Based on the evaluation, the vendors are then categorized into four distinct quadrants representing varying levels of success: Forefront (F), Pathfinder (P), Niche (N), or Vital (V).

Market Share Analysis

The Market Share Analysis is a comprehensive tool that provides an insightful and in-depth examination of the current state of vendors in the Industrial 3D Printing Market. By meticulously comparing and analyzing vendor contributions in terms of overall revenue, customer base, and other key metrics, we can offer companies a greater understanding of their performance and the challenges they face when competing for market share. Additionally, this analysis provides valuable insights into the competitive nature of the sector, including factors such as accumulation, fragmentation dominance, and amalgamation traits observed over the base year period studied. With this expanded level of detail, vendors can make more informed decisions and devise effective strategies to gain a competitive edge in the market.

Key Company Profiles

The report delves into recent significant developments in the Industrial 3D Printing Market, highlighting leading vendors and their innovative profiles. These include 3D Systems, Inc., Aconity GmbH, AddUp, SAS, Adobe Inc., Aurora Labs Limited, Canon, Inc., Desktop Metal, Inc., EOS GmbH, Evolve Additive Solutions, Inc., General Electric Company, Hewlett-Packard Company, Hoganas AB, JENOPTIK AG, KLA Corporation, Koninklijke Philips N.V., Lexmark International, Inc., Matsuura Machinery Corporation, Metrologic Group SAS, Mitsubishi Electric Corporation, Modix Modular Technologies Ltd., Nikon Corporation, Orbital Express Launch Limited, Renishaw PLC, SGS SA, and Stratasys Ltd.

Market Segmentation & Coverage

This research report categorizes the Industrial 3D Printing Market to forecast the revenues and analyze trends in each of the following sub-markets:

  • Offering
    • Materials
      • Ceramics
        • Glass
        • Quartz
        • Silica
      • Metals
        • Aluminum
        • Cobalt-Chromium
        • Gold
        • Inconel
        • Silver
        • Steel
        • Titanium
      • Plastics
        • Nylon
        • Photopolymers
        • Polycarbonate
        • Polylactic Acid
        • Polypropylene
        • Polyvinyl Alcohol
        • Thermoplastics
    • Printers
    • Services
      • Consulting Services
      • Manufacturing Services
    • Software
      • Design Software
      • Inspection Software
      • Printing Software
      • Scanning Software
  • Process
    • Binder Jetting
    • Direct Energy Deposition
    • Material Extrusion
    • Material Jetting
    • Powder Bed Fusion
    • Sheet Lamination
    • Vat Photopolymerization
  • Technology
    • Digital Light Processing
    • Direct Metal Laser Sintering
    • Electron Beam Melting
    • Fused Deposition Modelling
    • Inkjet Printing
    • Laminated Object Manufacturing
    • Laser Metal Deposition
    • Poly-Jet Printing
    • Selective Laser Sintering
    • Stereolithography
  • Application
    • Manufacturing
    • Prototyping
  • End User
    • Aerospace & Defense
    • Automotive
    • Consumer Goods
    • Food & Culinary
    • Foundry & Forging
    • Healthcare
    • Jewelry
    • Oil & Gas
    • Printed Electronics
  • Region
    • Americas
      • Argentina
      • Brazil
      • Canada
      • Mexico
      • United States
        • California
        • Florida
        • Illinois
        • New York
        • Ohio
        • Pennsylvania
        • Texas
    • Asia-Pacific
      • Australia
      • China
      • India
      • Indonesia
      • Japan
      • Malaysia
      • Philippines
      • Singapore
      • South Korea
      • Taiwan
      • Thailand
      • Vietnam
    • Europe, Middle East & Africa
      • Denmark
      • Egypt
      • Finland
      • France
      • Germany
      • Israel
      • Italy
      • Netherlands
      • Nigeria
      • Norway
      • Poland
      • Qatar
      • Russia
      • Saudi Arabia
      • South Africa
      • Spain
      • Sweden
      • Switzerland
      • Turkey
      • United Arab Emirates
      • United Kingdom

The report offers valuable insights on the following aspects:

1. Market Penetration: It presents comprehensive information on the market provided by key players.

2. Market Development: It delves deep into lucrative emerging markets and analyzes the penetration across mature market segments.

3. Market Diversification: It provides detailed information on new product launches, untapped geographic regions, recent developments, and investments.

4. Competitive Assessment & Intelligence: It conducts an exhaustive assessment of market shares, strategies, products, certifications, regulatory approvals, patent landscape, and manufacturing capabilities of the leading players.

5. Product Development & Innovation: It offers intelligent insights on future technologies, R&D activities, and breakthrough product developments.

The report addresses key questions such as:

1. What is the market size and forecast of the Industrial 3D Printing Market?

2. Which products, segments, applications, and areas should one consider investing in over the forecast period in the Industrial 3D Printing Market?

3. What are the technology trends and regulatory frameworks in the Industrial 3D Printing Market?

4. What is the market share of the leading vendors in the Industrial 3D Printing Market?

5. Which modes and strategic moves are suitable for entering the Industrial 3D Printing Market?

Table of Contents

1. Preface

  • 1.1. Objectives of the Study
  • 1.2. Market Segmentation & Coverage
  • 1.3. Years Considered for the Study
  • 1.4. Currency & Pricing
  • 1.5. Language
  • 1.6. Stakeholders

2. Research Methodology

  • 2.1. Define: Research Objective
  • 2.2. Determine: Research Design
  • 2.3. Prepare: Research Instrument
  • 2.4. Collect: Data Source
  • 2.5. Analyze: Data Interpretation
  • 2.6. Formulate: Data Verification
  • 2.7. Publish: Research Report
  • 2.8. Repeat: Report Update

3. Executive Summary

4. Market Overview

5. Market Insights

  • 5.1. Market Dynamics
    • 5.1.1. Drivers
      • 5.1.1.1. Growing digital transformation with an increasing need for greater manufacturing flexibility
      • 5.1.1.2. Increasing adoption of 3D printing across aerospace and automotive industries
      • 5.1.1.3. Rising government investment supporting 3D printing
    • 5.1.2. Restraints
      • 5.1.2.1. High cost of development of industrial 3D printing solutions
    • 5.1.3. Opportunities
      • 5.1.3.1. Growing introduction of technologically advanced 3D printing solutions
      • 5.1.3.2. Rising emphasis on sustainability and customized solutions
    • 5.1.4. Challenges
      • 5.1.4.1. Certain technical limitations with the industrial 3D printing solutions
  • 5.2. Market Segmentation Analysis
    • 5.2.1. Offering: Growing adoption of software to digitize real-world objects for quality inspection
    • 5.2.2. Process: High potential of material extrusion process for prototyping and low-volume production
    • 5.2.3. Technology: Rising adoption of fused deposition modeling technology due to its cost-effective and user-friendly nature
    • 5.2.4. Application: Growing application of industrial 3D printing for manufacturing to reduce lead times and accelerates time-to-market for new products
    • 5.2.5. End User: Growing adoption of 3D printing across the consumer goods industry to ensure speed and readiness of products
  • 5.3. Market Disruption Analysis
  • 5.4. Porter's Five Forces Analysis
    • 5.4.1. Threat of New Entrants
    • 5.4.2. Threat of Substitutes
    • 5.4.3. Bargaining Power of Customers
    • 5.4.4. Bargaining Power of Suppliers
    • 5.4.5. Industry Rivalry
  • 5.5. Value Chain & Critical Path Analysis
  • 5.6. Pricing Analysis
  • 5.7. Technology Analysis
  • 5.8. Patent Analysis
  • 5.9. Trade Analysis
  • 5.10. Regulatory Framework Analysis

6. Industrial 3D Printing Market, by Offering

  • 6.1. Introduction
  • 6.2. Materials
  • 6.3. Printers
  • 6.4. Services
  • 6.5. Software

7. Industrial 3D Printing Market, by Process

  • 7.1. Introduction
  • 7.2. Binder Jetting
  • 7.3. Direct Energy Deposition
  • 7.4. Material Extrusion
  • 7.5. Material Jetting
  • 7.6. Powder Bed Fusion
  • 7.7. Sheet Lamination
  • 7.8. Vat Photopolymerization

8. Industrial 3D Printing Market, by Technology

  • 8.1. Introduction
  • 8.2. Digital Light Processing
  • 8.3. Direct Metal Laser Sintering
  • 8.4. Electron Beam Melting
  • 8.5. Fused Deposition Modelling
  • 8.6. Inkjet Printing
  • 8.7. Laminated Object Manufacturing
  • 8.8. Laser Metal Deposition
  • 8.9. Poly-Jet Printing
  • 8.10. Selective Laser Sintering
  • 8.11. Stereolithography

9. Industrial 3D Printing Market, by Application

  • 9.1. Introduction
  • 9.2. Manufacturing
  • 9.3. Prototyping

10. Industrial 3D Printing Market, by End User

  • 10.1. Introduction
  • 10.2. Aerospace & Defense
  • 10.3. Automotive
  • 10.4. Consumer Goods
  • 10.5. Food & Culinary
  • 10.6. Foundry & Forging
  • 10.7. Healthcare
  • 10.8. Jewelry
  • 10.9. Oil & Gas
  • 10.10. Printed Electronics

11. Americas Industrial 3D Printing Market

  • 11.1. Introduction
  • 11.2. Argentina
  • 11.3. Brazil
  • 11.4. Canada
  • 11.5. Mexico
  • 11.6. United States

12. Asia-Pacific Industrial 3D Printing Market

  • 12.1. Introduction
  • 12.2. Australia
  • 12.3. China
  • 12.4. India
  • 12.5. Indonesia
  • 12.6. Japan
  • 12.7. Malaysia
  • 12.8. Philippines
  • 12.9. Singapore
  • 12.10. South Korea
  • 12.11. Taiwan
  • 12.12. Thailand
  • 12.13. Vietnam

13. Europe, Middle East & Africa Industrial 3D Printing Market

  • 13.1. Introduction
  • 13.2. Denmark
  • 13.3. Egypt
  • 13.4. Finland
  • 13.5. France
  • 13.6. Germany
  • 13.7. Israel
  • 13.8. Italy
  • 13.9. Netherlands
  • 13.10. Nigeria
  • 13.11. Norway
  • 13.12. Poland
  • 13.13. Qatar
  • 13.14. Russia
  • 13.15. Saudi Arabia
  • 13.16. South Africa
  • 13.17. Spain
  • 13.18. Sweden
  • 13.19. Switzerland
  • 13.20. Turkey
  • 13.21. United Arab Emirates
  • 13.22. United Kingdom

14. Competitive Landscape

  • 14.1. Market Share Analysis, 2023
  • 14.2. FPNV Positioning Matrix, 2023
  • 14.3. Competitive Scenario Analysis
    • 14.3.1. Eplus3D, IGO3D Announce Strategic Partnership for Metal 3D Printing
    • 14.3.2. Azul 3D Raises USD 15 Million in Series A Funding to Advance 3D Printing Technology
    • 14.3.3. HP and Materialise Partner to Drive Volume 3D Printing
  • 14.4. Strategy Analysis & Recommendation

15. Competitive Portfolio

  • 15.1. Key Company Profiles
  • 15.2. Key Product Portfolio