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市場調査レポート

スマートテキスタイル市場:2016-2023年

Smart Textiles Markets 2016-2023

発行 n-tech Research, a NanoMarkets company 商品コード 344992
出版日 ページ情報 英文 116 Pages
納期: 即日から翌営業日
価格
本日の銀行送金レート: 1USD=115.27円で換算しております。

2016年12月31日まで 年末キャンペーン割引: n-tech Research, a NanoMarkets company社発行レポート
ご注意: ショッピングカートでは適用されませんので、割引価格についてはお問い合わせください

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スマートテキスタイル市場:2016-2023年 Smart Textiles Markets 2016-2023
出版日: 2015年12月01日 ページ情報: 英文 116 Pages
概要

当レポートでは、世界のスマートテキスタイル市場の動向について調査し、主な技術と材料、各種用途、スマートテキスタイルおよびセンサーの8カ年予測 (用途別)、注目の企業の動向などをまとめています。

エグゼクティブサマリー

  • 市場機会:ファッション・技術・ヘルスケアの境界のあいまい化
  • 新しい第2世代スマートテキスタイル:スポーツ・ヘルス・ファッション
  • スマート材料の技術動向とスマートテキスタイルの将来
  • 注目の企業
    • Adidas
    • BASF
    • BeBop Sensors
    • Clothing+/Jabil
    • Schoeller Textiles
    • OMSignal
    • Sensoria
  • 8カ年予測:サマリー

第1章 イントロダクション

  • 本書の背景
  • 本書の目的・範囲
  • 調査手法
  • 本書の構成

第2章 スマートテキスタイル関連の材料・技術

  • 導電性ファブリック
    • 金属繊維
    • 導電性ポリマー
  • テキスタイルへの組込みセンサー
    • 圧力センサー
    • 熱・温度センサー
    • モーションセンサー
    • バイオメトリクス測定
    • 化学センサー・バイオセンサー
  • スマートテキスタイルの動力
    • テキスタイルベースの太陽電池
    • エネルギーハーベスティング・貯蔵
  • エレクトロニクス・通信
    • 組込み電子部品
    • テキスタイルトランジスター
  • 本質的にスマートなファブリック
    • 色が変化するファブリックの各種タイプ
    • カモフラージユニフォームのための色が変化する材料
    • 寒さ・暑さのためのスマートファブリック
    • 抗菌性ファブリック
    • 形状記憶材料の利用
    • 自浄性ファブリック
    • 自己回復性ファブリック
    • ナノ材料・他の新しい機会
  • 製造における課題
    • 編織
    • プリンティング
    • 刺繍
    • 耐洗浄性対策
    • 環境にやさしい工程
    • テキスタイルおよびエレクトロニクスの製造の融合
    • スマートテキスタイルと世界のテキスタイル市場の進化
  • 本章の要点

第3章 スマートテキスタイルの各種用途

  • ヘルス&フィットネス市場の重なり
  • スポーツ関連用途
    • スマートシャツ部門における知的財産の戦い
    • バイオメトリクスシャツ以外のスポーツ関連用途
    • 冒険家向けの製品
    • スポーツウェア産業で注目の企業
  • 医療関連用途
    • 健康状態の在宅モニタリングのためのスマートテキスタイル
    • 病院・診療所でのスマートテキスタイル
    • 注目の企業
  • 軍事用衣類
    • 技術を個人へ
    • 兵士用スマート衣類
    • 医療用途の活用
    • 軍事用の色の変わるテキスタイル
  • ファーストレスポンダー・工業労働者向け防護服
    • 消防士向けスマートユニフォーム
    • 工業労働者のニーズへの対応
  • ファッション業界における変化
    • デザインおよび技術の融合
    • ファッションとスポーツ用衣類の境界のあいまい化
  • スマートテキスタイルのニッチ用途
    • セーフティ&セキュリティ
    • 輸送
    • 建築
  • 本章の要点

第4章 5カ年予測:スマートテキスタイルの材料・センサー

  • 予測手法
  • スマートテキスタイルの予測:スマート材料タイプ別
    • 色の変わる材料
    • 抗菌性塗料
    • 自浄性塗料
    • 加温・冷却ファブリック
    • 導電性ヤーン・糸・インク
  • センサーの予測:タイプ別
    • 圧力センサー
    • バイオメトリックセンサー
    • 化学センサー・バイオセンサー
  • 予測:用途別
    • ヘルス&フィットネス
    • 医療
    • 軍事
    • ファッション
    • 非衣類用途
  • 略語など
  • 著者について

図表

目次
Product Code: Nano-857

In this report we identify the opportunities emerging from commercialization of smart textiles. These include textiles that are (1) fabricated from smart materials or (2) utilize sensing devices that are seamlessly integrated into the textile.

The smart textile sector has taken off in the past few years, driven by the keen interest in the Internet-of-things (IoT) and enabled by the latest smart materials and powerful sensing devices. This report provides market coverage of the potential for emerging textile products where the textile is rapidly becoming the sensor.

The report also discusses how the latest generation of smart materials is expanding the market for advanced textiles. While the focus of this report is on the opportunity for smart textiles, we also discuss how the sensor industry can benefit from the latest trends in smart textiles and also how the supply chain for smart textiles is evolving.

In putting together this report n-tech has drawn on its extensive experience in the smart materials space as well as interviews with key companies in smart textiles. n-tech believes that this report will provide valuable insight into the smart textiles market that will benefit marketing and business development executives from various parts of the supply chain, including raw material suppliers, chemical companies, and clothing manufacturers, as well as investors in the industry.

Applications and Markets

This report includes an analysis of applications where n-tech believes smart textiles have a real opportunity to move beyond the lab and expensive demonstrations high-volume commercial applications. Applications covered include:

  • Health and Fitness: Sportswear, health monitoring, and clinical applications
  • Military and Security: Uniforms for soldiers and firefighters
  • Fashion: Functional clothing for the masses
  • Non-clothing applications: Solar cells, automotive, and more.

Smart Textile: Materials, Manufacturing and Components

This report provides coverage of how the following categories of materials are being used to fabricate commercially available smart textiles:

  • Electrically conductive yarns and threads
  • Conductive polymers
  • Shape memory materials
  • Color-changing materials
  • Phase-changing materials
  • Self-cleaning and antimicrobial materials
  • Nanomaterials

We also discuss how sensors are being integrated into textiles and how these will be powered. Finally, this report provides coverage of the latest business trends in smart textile fabrication processes, including weaving, knitting, printing, and embroidery. We focus on how these processes can be used to advance integration of function into textiles.

Eight-Year Forecasts for Smart Textile Materials

This report contains detailed forecasts of volume (in square meters and units) and revenue (in $ millions), broken down by:

  • End application
  • Type of material
  • Fabrication method

Profiles of Key Players

This report evaluates the product/market strategies of the leading suppliers of key materials for smart textiles. These firms include giants such as DuPont, as well as newer and smaller companies and startups that n-tech believes have compelling products that are likely to make inroads into the smart textiles market.

Table of Contents

Executive Summary

  • E.1 Market Opportunities: Blurring the Lines between Fashion, Technology, and Healthcare
  • E.2 Emerging Second Generation Smart Textiles: Sports, Health and Fashion
    • E.2.1 Tracking Motion and Ensuring Comfort: Sports and Fitness
    • E.2.2 Monitoring Health: Medical Applications
    • E.2.3 What Role will the Fashion Industry Play in Smart Clothing?
  • E.3 Technical Trends in Smart Materials and the Future of Smart Textiles
    • E.3.1 R&D Trends
    • E.3.2 Moving Technology into the Garment: Opportunities and Challenges for Manufacturing
  • E.4 Influential Firms to Watch in the Smart Textiles Sector
    • E.4.1 Adidas: Bringing a Brand Name to Smart Textiles
    • E.4.2 BASF: Possible Future Smart Textiles Powerhouse
    • E.4.3 BeBop Sensors: Funding for a Multifunctional Smart Textile Company
    • E.4.4 Clothing+/Jabil: Printing Intelligence in Smart Textiles
    • E.4.5 Schoeller Textiles: Functional Fabrics Get Smarter
    • E.4.6 OMSignal: Embedded Biometrics
    • E.4.7 Sensoria: More Than Smart Shirts
  • E.5 Summary of Eight-Year Forecasts for Smart Textiles Materials
    • E.5.1 Summary by Type of Material
    • E.5.2 Summary by Functionality
    • E.5.3 Summary by Application

Chapter One: Introduction

  • 1.1 Background to this Report
    • 1.1.1 The New Smart Fabrics: Smart Materials and Integrated Sensors
    • 1.1.2 Integration Defining the Opportunities in Smart Materials
    • 1.1.3 Merging Fashion and Function
    • 1.1.4 A Bottom Line
  • 1.2 Objectives and Scope of this Report
  • 1.3 Methodology of this Report
  • 1.4 Plan of this Report

Chapter Two: Materials and Technology Advances in Smart Textiles

  • 2.1 Electrically Conductive Fabrics
    • 2.1.1 Metallic Fibers
    • 2.1.2 Conductive Polymers
  • 2.2 Embedding Sensors into Textiles
    • 2.2.1 Pressure Sensors
    • 2.2.2 Heating and Temperature Sensing
    • 2.2.3 Motion Sensors
    • 2.2.4 Measuring Biometrics
    • 2.2.5 Chemical Sensors and Biosensors
  • 2.3 Powering Smart Textiles
    • 2.3.1 Textile-based Solar Cells
    • 2.3.2 Energy Harvesting and Storage
  • 2.4 Electronics and Communication
    • 2.4.1 Embedding Electronic Components
    • 2.4.2 Textile Transistors
  • 2.5 Inherently Smart Fabrics
    • 2.5.1 Types of Color-changing Fabrics
    • 2.5.2 Color-Changing Materials for Camouflage Uniforms
    • 2.5.3 Smart Fabrics for Cold and Hot Weather
    • 2.5.4 Antimicrobial Fabrics
    • 2.5.5 Use of Shape Memory materials
    • 2.5.6 Self-cleaning Fabrics
    • 2.5.7 Self-Healing Fabrics
    • 2.5.8 Nanomaterials and Other Emerging Opportunities
  • 2.6 Manufacturing Challenges
    • 2.6.1 Weaving and Knitting
    • 2.6.2 Printing
    • 2.6.3 Embroidery
    • 2.6.4 Addressing Washability
    • 2.6.5 Environmentally Friendly Processes
    • 2.6.6 Merging Textile and Electronics Production
    • 2.6.7 Smart Textiles and the Evolving Global Textile Market
  • 2.7 Key Points from this Chapter

Chapter Three: Applications for Smart Textiles

  • 3.1 Overlap between Health and Fitness Markets
  • 3.2 Sports-focused Applications
    • 3.2.1 The IP Battle in the Smart Shirt Sector
    • 3.2.2 Sports-focused Applications beyond Biometric Shirts
    • 3.2.3 Products for Adventurers
    • 3.2.4 Companies to Watch in the Sportswear Industry
  • 3.3 Medical-focused Applications
    • 3.3.1 Smart Textiles for in-Home Monitoring of Health Conditions
    • 3.3.2 Smart Textiles for use in Hospitals and Clinics
    • 3.3.3 Companies to Watch in the Medical Sector
  • 3.4 Clothing for the Military
    • 3.4.1 Moving Technology to the Individual
    • 3.4.2 Smart Clothing for Soldiers
    • 3.4.3 Leveraging Medical Applications
    • 3.4.4 Color-Shifting Textiles for the Military
  • 3.5 Protective Clothing for First Responders and Industrial Workers
    • 3.5.1 Smart Uniforms for Firefighters
    • 3.5.2 Addressing the Needs of Industrial Workers
  • 3.6 Changes in the Fashion Industry
    • 3.6.1 Blending Design and Technology
    • 3.6.2 Blurring the Lines between Fashion and Athletic Wear
  • 3.7 Niche Applications for Smart Textiles
    • 3.7.1 Safety and Security
    • 3.7.2 Transportation
    • 3.7.3 Architecture
  • 3.8 Key Points from this Chapter

Chapter Four: Eight-Year Forecasts for Materials and Sensors in Smart Textiles

  • 4.1 Forecast Methodology
    • 4.1.1 Raw Data
    • 4.1.2 Calculations
    • 4.1.3 Scope of Coverage
  • 4.2 Smart Textiles: Forecasts by Smart Material Type
    • 4.2.1 Color-shifting Materials
    • 4.2.2 Antimicrobial Coatings
    • 4.2.3 Self-cleaning Coatings
    • 4.2.4 Heating and Cooling Fabrics
    • 4.2.5 Conductive Yarns, Threads, and Inks
  • 4.3 Forecasts by Type of Sensor
    • 4.3.1 Pressure Sensors
    • 4.3.2 Biometric Sensors
    • 4.3.3 Motion Sensors
    • 4.2.4 Chemical Sensors and Biosensors
  • 4.4 Forecasts by Application
    • 4.4.1 Health and Fitness
    • 4.4.2 Medical
    • 4.4.3 Military
    • 4.4.4 Fashion Industry
    • 4.4.5 Non-Clothing Applications
  • Acronyms and Abbreviations Used In this Report
  • About the Author

List of Exhibits

  • Exhibit E-1: Eight-Year Forecasts for Materials and Sensors in Smart Textiles by Application, 2016-2023, $ Millions
  • Exhibit E-2: Eight-Year Forecasts for Fabrics and Coatings in Smart Textiles by Material, 2016-2023, $ Millions
  • Exhibit E-3: Eight-Year Forecasts for Sensors in Smart Textiles by Sensor Type, 2016-2023, $ Millions
  • Exhibit 2-1: Requirements for Active Heating and Cooling Fabrics
  • Exhibit 2-2: Requirements for Antimicrobial Fabrics
  • Exhibit 2-3: SBIR Grants Related to Antimicrobial Textiles
  • Exhibit 2-4: Fabrication Processes for Smart Textiles with Conductive Traces
  • Exhibit 3-1: Smart Shirt Suppliers
  • Exhibit 3-2: Patents for Smart Shirts with Biometric Monitoring
  • Exhibit 3-3: Nike Patents Related to Smart Textiles
  • Exhibit 3-4: Medical Smart Textile Products Based on Pressure Sensors
  • Exhibit 3-5: Medical Smart Textile Products Based on Temperature, Motion, Chemical, or Biometric Sensors
  • Exhibit 3-6: Examples of Smart Textile Fashion Concepts Using Light and Color
  • Exhibit 4-1: Eight-Year Forecast for Color-Shifting Materials in Smart Textiles, 2016-2023
  • Exhibit 4-2: Eight-Year Forecast for Antimicrobial Coatings in Smart Textiles, 2016-2023
  • Exhibit 4-3: Eight-Year Forecast for Self-Cleaning Coatings in Smart Textiles, 2016-2023
  • Exhibit 4-4: Eight-Year Forecast for Heating and Cooling Fabrics in Smart Textiles, 2016-2023
  • Exhibit 4-5: Eight-Year Forecast for Conductive Yarns, Threads and Inks in Smart Textiles, 2016-2023
  • Exhibit 4-6: Assumptions Made in Forecasting Various Sensors
  • Exhibit 4-7: Eight-Year Forecast for Pressure Sensors in Smart Textiles, 2016-2023
  • Exhibit 4-8: Eight-Year Forecast for Biometric Sensors in Smart Textiles, 2016-2023
  • Exhibit 4-9: Eight-Year Forecast for Motion Sensors in Smart Textiles, 2016-2023
  • Exhibit 4-10: Eight-Year Forecast for Chemical and Biosensors in Smart Textiles, 2016-2023
  • Exhibit 4-11: Eight-Year Forecast for Smart Textiles in Health and Fitness Applications, 2016-2023
  • Exhibit 4-12: Eight-Year Forecast for Smart Textiles in Medical Applications, 2016-2023
  • Exhibit 4-13: Eight-Year Forecast for Smart Textiles in Military Applications, 2016-2023
  • Exhibit 4-14: Eight-Year Forecast for Smart Textiles in Fashion Applications, 2016-2023
  • Exhibit 4-15: Eight-Year Forecast for Smart Textiles in Non-Clothing Applications, 2016-2023
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