宇宙製造市場：製品技術（ペロブスカイト太陽電池、グラフェン・固体リチウム電池、交換膜電池、トラクションモーター、水素推進システム、インスリン）、最終用途、地域別 - 2040年までの世界予測

In Space Manufacturing Market by Product Technology (Perovskite Photovoltaics cell,Graphene and solid-state Lithium batteries, Exchange membrane cells,Traction motor,Hydrogen propulsion system ,Insulin), End Use and Region - Global Forecast to 2040

宇宙空間製造市場は、2030年には46億米ドルと推定され、予測期間中の年平均成長率は29.7%で、2040年には628億米ドルに達すると予測されている。いくつかの要因により、宇宙空間での製造の世界市場は大幅に拡大し... もっと見る

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MarketsandMarkets マーケッツアンドマーケッツ	2023年11月9日	US$4,950 シングルユーザライセンスライセンス・価格情報注文方法はこちら	195	151	英語

日本語のページは自動翻訳を利用し作成しています。

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宇宙空間製造市場は、2030年には46億米ドルと推定され、予測期間中の年平均成長率は29.7%で、2040年には628億米ドルに達すると予測されている。いくつかの要因により、宇宙空間での製造の世界市場は大幅に拡大している。宇宙製造は、宇宙ベースの資産管理、衛星の交換と修理、精密工学製品のコスト効率の良い製造など、いくつかの重要な利点を提供する。宇宙製造は、宇宙資産の運用能力を向上させるための柔軟で費用対効果の高い選択肢を政府、軍事、商業ユーザーに提供し、遠隔修理と組立能力、地上市場で幅広い用途を持つ高品質の製品を提供する。
"量子ドットディスプレイ ": 予測期間中、製品技術タイプ別で最も急成長するセグメント "製品技術タイプに基づき、宇宙製造市場はペロブスカイト太陽電池、グラフェンと固体リチウム電池、プロトン交換膜電池、牽引モーター、水素推進システム、インシュリン、電磁メタマテリアルアンテナ、完全球ベアリング、量子ドットディスプレイ、組織/臓器、ZBLAN光ファイバー、ゼオライト結晶に区分される。量子ドットディスプレイは、予測期間中に最も急成長するセグメントとなる見込みである。.量子ドットディスプレイは、ディスプレイやQD-LEDのメーカーが、現在市場にある従来のハイエンドディスプレイと比較して競争力のある技術を提供することを可能にする。高品質量子ドットの微小重力製造の利点は、ゼロスイッチング・コストと相まって、市場でこの技術の高い普及が期待される主な要因である。
"日本が宇宙製造市場の予測年平均成長率で最大を占める"
日本は、宇宙製造市場において大きな成長を目撃することが期待される。この傾向にはいくつかの要因が寄与している：

宇宙計画の拡大：
宇宙開発プログラムの拡大：日本は宇宙開発プログラムに多額の投資を行っており、ヘルスケア、自動車、光ファイバー産業における主要製品技術の製造において業界をリードしている。先進国である日本は、宇宙で製造され地上市場で使用される製品に対する需要が高い。

戦略的パートナーシップ：日本は、国内外を問わず、テクノロジー企業と戦略的パートナーシップや提携を結び、その製造技術を活用している。こうしたパートナーシップは、商業的プレーヤーが製品の生産規模を拡大し、宇宙で製造される半完成品や完成品の取り込みを拡大することを可能にする。

宇宙製造市場の主要参入企業のプロファイルの内訳：企業タイプ別：ティア1 - 35%、ティア2 - 45%、ティア3 - 20%：C-Level Executives - 35%、Director-level - 25%、その他 - 40% 地域別：北米：25%、欧州：15%、アジア太平洋地域：45%、その他の地域：15
空間内製造市場の主要企業は、Allevi Inc.（米国）、Global Graphene Group, Inc.（米国）、Le Verre Fluore Fiber Solutions（フランス）、Nedstack Fuel cell Technology BV（オランダ）、Echodyne Corporation（米国）などである。
調査範囲この調査レポートは、宇宙空間での製造市場を調査・分析し、市場規模を予測することを目的としています。この調査レポートは、展開タイプ、サービスモデル、用途、エンドユーザー、地域など、さまざまなセグメントにわたる市場規模および市場の成長可能性を推定することを目的としています。また、主要企業の会社概要、製品・事業内容、最近の動向、主要市場戦略などに関する主要な見解とともに、市場の主要企業の詳細な競合分析も掲載しています。本レポートを購入する主なメリット本レポートは、宇宙空間製造市場全体とそのサブセグメントにおける収益数の最も近い近似値に関する情報を提供し、この市場の市場リーダー/新規参入者に役立ちます。本レポートは、宇宙空間製造業界のエコシステム全体をカバーしており、利害関係者が競争環境を理解し、自社のビジネスをより良く位置づけ、適切な市場参入戦略を計画するためのより多くの洞察を得るのに役立ちます。また、当レポートは、関係者が市場の鼓動を理解し、主要な市場促進要因、阻害要因、課題、機会に関する情報を提供するのに役立ちます。

本レポートは、以下のポイントに関する洞察を提供しています：
- 主要推進要因の分析：宇宙空間製造市場の拡大に貢献する可能性のあるいくつかの要因があります。
- 製品開発/イノベーション：In Space Manufacturing市場における今後の技術、研究開発活動、新製品・サービス発表に関する詳細な洞察。
- 市場開発：有利な市場に関する包括的な情報 - 当レポートは、様々な地域における宇宙空間製造市場を分析しています。
- 市場の多様化：宇宙空間製造市場における新製品＆サービス、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。
- 競合評価：宇宙空間製造市場におけるAllevi Inc.（米国）、Global Graphene Group, Inc.（米国）、Le Verre Fluore Fiber Solutions（フランス）、Nedstack Fuel cell Technology BV（オランダ）、Echodyne Corporation（米国）などの主要企業の市場シェア、成長戦略、サービス内容を詳細に評価します。

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1 INTRODUCTION 23
1.1 STUDY OBJECTIVES 23
1.2 MARKET DEFINITION 24
TABLE 1 INCLUSIONS AND EXCLUSIONS 24
1.3 STUDY SCOPE 24
1.3.1 MARKETS COVERED 24
FIGURE 1 IN-SPACE MANUFACTURING MARKET SEGMENTATION 24
1.3.2 REGIONS COVERED 25
1.3.3 YEARS CONSIDERED 25
1.4 CURRENCY CONSIDERED 25
TABLE 2 USD EXCHANGE RATES 26
1.5 LIMITATIONS 26
1.6 STAKEHOLDERS 26
2 RESEARCH METHODOLOGY 27
2.1 RESEARCH DATA 27
FIGURE 2 REPORT PROCESS FLOW 27
FIGURE 3 RESEARCH DESIGN 28
2.1.1 SECONDARY DATA 28
2.1.1.1 Key data from secondary sources 29
2.1.2 PRIMARY DATA 30
2.1.2.1 Key data from primary sources 30
2.1.2.2 Breakdown of primary interviews 31
FIGURE 4 BREAKDOWN OF PRIMARY INTERVIEWS: BY COMPANY TYPE, DESIGNATION, AND REGION 31
2.2 FACTOR ANALYSIS 31
2.2.1 INTRODUCTION 31
2.2.2 DEMAND-SIDE INDICATORS 31
2.2.3 SUPPLY-SIDE INDICATORS 32
2.2.4 RECESSION IMPACT ANALYSIS 32
2.3 MARKET SIZE APPROACH 32
2.3.1 BOTTOM-UP APPROACH 33
2.3.1.1 Market size estimation methodology 33
FIGURE 5 MARKET SIZE ESTIMATION METHODOLOGY: BOTTOM-UP APPROACH 33
2.3.2 TOP-DOWN APPROACH 34
FIGURE 6 MARKET SIZE ESTIMATION METHODOLOGY: TOP-DOWN APPROACH 34
2.4 DATA TRIANGULATION 35
FIGURE 7 DATA TRIANGULATION 35
2.5 RESEARCH ASSUMPTIONS 36
FIGURE 8 ASSUMPTIONS FOR RESEARCH STUDY 36
2.6 RESEARCH LIMITATIONS 36
2.7 RISK ANALYSIS 36
3 EXECUTIVE SUMMARY 37
FIGURE 9 TISSUES/ORGANS SEGMENT TO ACCOUNT FOR LARGEST MARKET SHARE BY 2030 37
FIGURE 10 QUANTUM DOT DISPLAYS SEGMENT TO ACCOUNT FOR LARGEST MARKET SHARE BY 2040 38
FIGURE 11 JAPAN TO BE FASTEST-GROWING MARKET FROM 2030 TO 2034 39
FIGURE 12 JAPAN AND SOUTH KOREA TO BE FASTEST-GROWING MARKETS FROM 2035 TO 2040 40
4 PREMIUM INSIGHTS 41
4.1 ATTRACTIVE OPPORTUNITIES FOR PLAYERS IN IN-SPACE MANUFACTURING MARKET 41
FIGURE 13 ADVANCEMENTS IN ADDITIVE MANUFACTURING AND 3D PRINTING TECHNOLOGIES TO DRIVE MARKET 41
4.2 IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY (2030) 41
FIGURE 14 TISSUES/ORGANS SEGMENT TO DOMINATE MARKET BY 2030 41
4.3 IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY (2030–2034) 42
FIGURE 15 TRACTION MOTORS SEGMENT TO DOMINATE MARKET BY 2034 42
4.4 IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY (2035–2040) 42
FIGURE 16 QUANTUM DOTS DISPLAYS SEGMENT TO ACCOUNT FOR LARGEST MARKET SHARE BY 2040 42
4.5 IN-SPACE MANUFACTURING MARKET, BY REGION 43
FIGURE 17 ASIA PACIFIC TO BE FASTEST-GROWING REGIONAL MARKET FROM 2030 TO 2034 43
FIGURE 18 REST OF THE WORLD TO BE FASTEST-GROWING REGIONAL MARKET FROM 2035 TO 2040 44
5 MARKET OVERVIEW 45
5.1 INTRODUCTION 45
5.2 MARKET DYNAMICS 46
FIGURE 19 IN-SPACE MANUFACTURING MARKET: DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES 46
5.2.1 DRIVERS 46
5.2.1.1 Advancements in additive manufacturing and 3D printing technologies 46
5.2.1.2 Manufacturing advantages of in-space fabrication over terrestrial manufacturing 47
5.2.1.3 Increasing momentum for space-based infrastructure by government agencies and private players 48
5.2.1.4 Decreasing launch costs 48
5.2.2 RESTRAINTS 49
5.2.2.1 High costs involved in maturation of space-based manufacturing technologies 49
5.2.2.2 Restricted production scale due to unavailability of key manufacturing raw materials 49
5.2.3 OPPORTUNITIES 49
5.2.3.1 Need for in-space manufactured products for use in manned journeys and space habitats 49
5.2.3.2 New market for in-space services in expanding satellite constellations 50
5.2.4 CHALLENGES 51
5.2.4.1 Refinement and utilization of available resources for ISRU-based manufacturing processes 51
5.2.4.2 Long maturation timelines for key technologies in space-based manufacturing ecosystem 51
5.3 VALUE CHAIN ANALYSIS 51
FIGURE 20 VALUE CHAIN ANALYSIS OF IN-SPACE MANUFACTURING MARKET 52
5.4 TRENDS AND DISRUPTIONS IMPACTING CUSTOMER BUSINESS 53
FIGURE 21 TRENDS AND DISRUPTIONS IMPACTING IN-SPACE MANUFACTURING MARKET 53
5.5 IN-SPACE MANUFACTURING MARKET ECOSYSTEM 54
5.5.1 PROMINENT COMPANIES 54
5.5.2 PRIVATE AND SMALL ENTERPRISES 54
5.5.3 ECOSYSTEM 54
FIGURE 22 IN-SPACE MANUFACTURING MARKET ECOSYSTEM MAP 54
TABLE 3 IN-SPACE MANUFACTURING MARKET ECOSYSTEM 55
5.6 PORTER’S FIVE FORCES ANALYSIS 56
FIGURE 23 IN-SPACE MANUFACTURING MARKET: PORTER’S FIVE FORCES ANALYSIS 56
TABLE 4 IN-SPACE MANUFACTURING MARKET: PORTER’S FIVE FORCE ANALYSIS 56
5.6.1 THREAT OF NEW ENTRANTS 57
5.6.2 THREAT OF SUBSTITUTES 57
5.6.3 BARGAINING POWER OF SUPPLIERS 57
5.6.4 BARGAINING POWER OF BUYERS 57
5.6.5 INTENSITY OF COMPETITIVE RIVALRY 57
5.7 REGULATORY LANDSCAPE 57
TABLE 5 NORTH AMERICA: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 58
TABLE 6 EUROPE: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 58
TABLE 7 ASIA PACIFIC: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 59
TABLE 8 REST OF THE WORLD: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS 60
6 INDUSTRY TRENDS 61
6.1 INTRODUCTION 61
6.2 TECHNOLOGY TRENDS 61
6.2.1 SPACE QUALIFICATION AND MINIATURIZATION OF 3D PRINTING TECHNOLOGY 61
6.2.2 ROBOTIC ASSEMBLY AND MANUFACTURING METHODS FOR SPACE HARDWARE 62
6.2.3 MODULAR MANUFACTURING OF SPACECRAFT AND SATELLITE COMPONENTS 62
6.3 USE CASE ANALYSIS 63
6.3.1 USE CASE 1: IN-SPACE MICROFABRICATION 63
6.3.2 USE CASE 2: COBOTS AND AI ROBOTS FOR SPACE FACTORIES 64
6.3.3 USE CASE 3: ADVANCED BIO-INKS 65
6.4 IMPACT OF MEGATRENDS 65
6.4.1 SOLAR PANEL MANUFACTURING FOR SATELLITES 65
6.4.2 DEVELOPMENT OF MISSION EXTENSION VEHICLES 66
6.5 PATENT ANALYSIS 66
TABLE 9 LIST OF KEY PATENTS 66
7 IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY 72
7.1 INTRODUCTION 73
FIGURE 24 QUANTUM DOT DISPLAYS SEGMENT TO REGISTER HIGHEST CAGR FROM 2030 TO 2034 73
FIGURE 25 QUANTUM DOT DISPLAYS SEGMENT TO REGISTER HIGHEST CAGR FROM 2035 TO 2040 74
TABLE 10 IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030−2034 (USD MILLION) 75
TABLE 11 IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 75
7.2 PEROVSKITE PHOTOVOLTAIC CELLS 76
7.2.1 PEROVSKITE CELLS TO ADDRESS DEMAND FOR SUSTAINABLE AND EFFICIENT SOLAR POWER SOLUTIONS 76
7.3 GRAPHENE AND SOLID-STATE LITHIUM BATTERIES 76
7.3.1 GRAPHENE AND SOLID-STATE BATTERY TECHNOLOGY ADOPTION TO REDUCE DEPENDENCE ON TRADITIONAL BATTERIES 76
7.4 PROTON EXCHANGE MEMBRANE CELLS (PEMC) 76
7.4.1 AUTOMATION OF LABOR-INTENSIVE PEMC MANUFACTURING PROCESSES TO STREAMLINE MANUFACTURING 76
7.5 TRACTION MOTORS 77
7.5.1 POWERFUL ELECTRIC DRIVES TO REPLACE TRADITIONAL MOTORS IN TRAINS 77
7.6 HYDROGEN PROPULSION SYSTEMS 77
7.6.1 MICROGRAVITY ENVIRONMENT TO MITIGATE COMPLEX MANUFACTURING CHALLENGES 77
7.7 INSULIN 77
7.7.1 INCREASING DEMAND FOR EXPENSIVE LIFE-SAVING DRUGS TO BE SUSTAINED BY IN-SPACE MANUFACTURING 77
7.8 ELECTROMAGNETIC METAMATERIAL ANTENNAS 78
7.8.1 LOW-RESOURCE MANUFACTURING OF ADVANCED ANTENNAS TO REDUCE TERRESTRIAL PRODUCTION COSTS 78
7.9 PERFECT SPHERE BEARINGS 78
7.9.1 NEED FOR ACCURATE AND REAL-TIME TARGET INFORMATION TO ENHANCE MILITARY MISSION CAPABILITIES 78
7.10 QUANTUM DOT DISPLAYS 78
7.10.1 PRECISION MANUFACTURING IN MICROGRAVITY ENVIRONMENT TO DRIVE ADOPTION OF HIGH-QUALITY DISPLAYS 78
7.11 TISSUES/ORGANS 78
7.11.1 NOVEL MANUFACTURING PROCESSES TO ENABLE ORGAN AND TISSUE BIO-PRINTING 78
7.12 ZBLAN FIBER OPTICS 79
7.12.1 SPACE FABRICATION OF HIGH-QUALITY OPTICAL FIBERS TO BE COST-EFFECTIVE 79
7.13 ZEOLITE CRYSTALS 79
7.13.1 MICROGRAVITY CONDITIONS TO ENABLE HIGH-QUALITY ZEOLITE CRYSTAL PRODUCTION 79
8 IN-SPACE MANUFACTURING MARKET, BY END USER 80
8.1 INTRODUCTION 81
8.2 GOVERNMENT & MILITARY 81
8.2.1 IN-SPACE MANUFACTURING TO ADDRESS DEMAND FOR REPAIR AND MAINTENANCE OF SPACE-BASED ASSETS AND IMPROVED MISSION FUNCTIONALITY 81
8.3 COMMERCIAL 81
8.3.1 INVESTMENTS IN SPACE ECONOMY TO DRIVE MARKET 81
9 IN-SPACE MANUFACTURING MARKET, BY POINT OF USE 82
9.1 INTRODUCTION 83
9.2 SPACE 83
9.2.1 IN-SPACE MANUFACTURING TO BE ADVANTAGEOUS FOR CONTINUED GROWTH OF NEW SPACE ECOSYSTEM 83
9.3 TERRESTRIAL 83
9.3.1 IN-SPACE PRODUCTS TO WITNESS INCREASED DEMAND IN FUTURE 83
10 IN-SPACE MANUFACTURING MARKET, BY REGION 85
10.1 INTRODUCTION 86
10.2 RECESSION IMPACT ON IN-SPACE MANUFACTURING MARKET 86
TABLE 12 IN-SPACE MANUFACTURING MARKET, BY REGION, 2030–2034 (USD MILLION) 87
TABLE 13 IN-SPACE MANUFACTURING MARKET, BY REGION, 2035–2040 (USD MILLION) 87
10.3 NORTH AMERICA 87
10.3.1 PESTLE ANALYSIS: NORTH AMERICA 88
FIGURE 26 NORTH AMERICA: IN-SPACE MANUFACTURING MARKET SNAPSHOT 90
TABLE 14 NORTH AMERICA: IN-SPACE MANUFACTURING MARKET, BY COUNTRY, 2030–2034 (USD MILLION) 90
TABLE 15 NORTH AMERICA: IN-SPACE MANUFACTURING MARKET, BY COUNTRY, 2035–2040 (USD MILLION) 91
TABLE 16 NORTH AMERICA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 91
TABLE 17 NORTH AMERICA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 92
10.3.2 US 92
10.3.2.1 Increasing investment in new space economy to drive market 92
TABLE 18 US: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 93
TABLE 19 US: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 93
10.3.3 CANADA 94
10.3.3.1 Government incentives to develop advanced technologies for space exploration and mining to drive market 94
TABLE 20 CANADA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 94
TABLE 21 CANADA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 95
10.4 EUROPE 95
10.4.1 PESTLE ANALYSIS: EUROPE 96
TABLE 22 EUROPE: IN-SPACE MANUFACTURING MARKET, BY COUNTRY, 2030–2034 (USD MILLION) 98
TABLE 23 EUROPE: IN-SPACE MANUFACTURING MARKET, BY COUNTRY, 2035–2040 (USD MILLION) 98
TABLE 24 EUROPE: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 99
TABLE 25 EUROPE: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 99
10.4.2 UK 100
10.4.2.1 Collaborations between private and government entities to develop advanced material manufacturing processes to drive market 100
TABLE 26 UK: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 101
TABLE 27 UK: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 101
10.4.3 FRANCE 102
10.4.3.1 Favorable government policies and maturation of advanced technologies to drive market 102
TABLE 28 FRANCE: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 103
TABLE 29 FRANCE: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 103
10.4.4 GERMANY 104
10.4.4.1 Sizeable aerospace industries and strong investments in technology to drive market 104
TABLE 30 GERMANY: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 104
TABLE 31 GERMANY: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 105
10.4.5 RUSSIA 105
10.4.5.1 Diversification of technology products and development of advanced hardware to enable commercial viability of ISM products to drive market 105
TABLE 32 RUSSIA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 106
TABLE 33 RUSSIA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 106
10.4.6 ITALY 107
10.4.6.1 Domestic space programs to drive market 107
TABLE 34 ITALY: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 107
TABLE 35 ITALY: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 108
10.5 ASIA PACIFIC 108
10.5.1 PESTLE ANALYSIS: ASIA PACIFIC 108
FIGURE 28 ASIA PACIFIC: IN-SPACE MANUFACTURING MARKET SNAPSHOT 110
TABLE 36 ASIA PACIFIC: IN-SPACE MANUFACTURING MARKET, BY COUNTRY, 2030–2034 (USD MILLION) 110
TABLE 37 ASIA PACIFIC: IN-SPACE MANUFACTURING MARKET, BY COUNTRY, 2035–2040 (USD MILLION) 111
TABLE 38 ASIA PACIFIC: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 111
TABLE 39 ASIA PACIFIC: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 112
10.5.2 CHINA 112
10.5.2.1 Strong government initiatives to increase contribution in all space programs to drive market 112
TABLE 40 CHINA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 113
TABLE 41 CHINA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 113
10.5.3 INDIA 114
10.5.3.1 Future space programs and increasing commercial players in space technology segment to drive market 114
TABLE 42 INDIA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 114
TABLE 43 INDIA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 115
10.5.4 JAPAN 115
10.5.4.1 Growing demand for drone services in agriculture, inspection, and entertainment to drive market 115
TABLE 44 JAPAN: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 116
TABLE 45 JAPAN: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 116
10.5.5 SOUTH KOREA 117
10.5.5.1 Growing demand for high-quality fibers and precision machined goods to drive market 117
TABLE 46 SOUTH KOREA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 117
TABLE 47 SOUTH KOREA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 118
10.6 REST OF THE WORLD 118
10.6.1 PESTLE ANALYSIS: REST OF THE WORLD 119
FIGURE 29 REST OF THE WORLD: IN-SPACE MANUFACTURING MARKET SNAPSHOT 120
TABLE 48 REST OF THE WORLD: IN-SPACE MANUFACTURING MARKET, BY REGION, 2030–2034 (USD MILLION) 120
TABLE 49 REST OF THE WORLD: IN-SPACE MANUFACTURING MARKET, BY REGION, 2035–2040 (USD MILLION) 121
TABLE 50 REST OF THE WORLD: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 121
TABLE 51 REST OF THE WORLD: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 122
10.6.2 MIDDLE EAST & AFRICA 122
10.6.2.1 Increasing applicability of drones in defense and commercial sectors to drive market 122
TABLE 52 MIDDLE EAST & AFRICA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 123
TABLE 53 MIDDLE EAST & AFRICA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 123
10.6.3 LATIN AMERICA 124
10.6.3.1 Emergence of new players in technology sector to drive market 124
TABLE 54 LATIN AMERICA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2030–2034 (USD MILLION) 124
TABLE 55 LATIN AMERICA: IN-SPACE MANUFACTURING MARKET, BY PRODUCT TECHNOLOGY, 2035–2040 (USD MILLION) 125
11 COMPETITIVE LANDSCAPE 126
11.1 INTRODUCTION 126
TABLE 56 KEY DEVELOPMENTS BY LEADING PLAYERS IN IN-SPACE MANUFACTURING MARKET, 2019–2023 126
11.2 RANKING ANALYSIS 128
FIGURE 30 MARKET RANKING OF TOP 5 PLAYERS, 2023 128
11.3 COMPANY EVALUATION MATRIX 129
11.3.1 STARS 129
11.3.2 EMERGING LEADERS 129
11.3.3 PERVASIVE PLAYERS 129
11.3.4 PARTICIPANTS 130
FIGURE 31 IN-SPACE MANUFACTURING MARKET: COMPANY EVALUATION MATRIX, 2022 130
11.4 COMPANY FOOTPRINT 131
TABLE 57 COMPANY PRODUCT FOOTPRINT 131
TABLE 58 COMPANY PRODUCT TECHNOLOGY FOOTPRINT (PEROVSKITE PHOTOVOLTAIC CELLS, TRACTION MOTORS, AND OTHERS) 132
TABLE 59 COMPANY PRODUCT TECHNOLOGY FOOTPRINT (PERFECT SPHERE BEARINGS, TISSUES/ORGANS, AND OTHERS) 133
TABLE 60 COMPANY REGIONAL FOOTPRINT 134
11.5 COMPETITIVE SCENARIO 134
11.5.1 MARKET EVALUATION FRAMEWORK 135
11.5.2 PRODUCT LAUNCHES 135
TABLE 61 PRODUCT LAUNCHES, 2019–2023 135
11.5.3 DEALS 138
TABLE 62 DEALS, 2019–2023 138
11.5.4 OTHERS 151
TABLE 63 OTHERS, 2019–2023 151
12 COMPANY PROFILES 152
12.1 INTRODUCTION 152
(Business Overview, Products Offered, Recent Developments, and MnM View (Key strengths/Right to Win, Strategic Choices Made, and Weaknesses and Competitive Threats))*
12.1.1 OXFORD PHOTOVOLTAICS LTD. 152
TABLE 64 OXFORD PHOTOVOLTAICS LTD.: COMPANY OVERVIEW 152
TABLE 65 OXFORD PHOTOVOLTAICS LTD.: PRODUCTS/SOLUTIONS/SERVICES OFFERED 153
TABLE 66 OXFORD PHOTOVOLTAICS LTD.: OTHERS 153
12.1.2 QUANTUMSCAPE CORPORATION 154
TABLE 67 QUANTUMSCAPE CORPORATION: COMPANY OVERVIEW 154
TABLE 68 QUANTUMSCAPE CORPORATION: PRODUCTS/SOLUTIONS/SERVICES OFFERED 154
TABLE 69 QUANTUMSCAPE CORPORATION: PRODUCT DEVELOPMENTS 154
TABLE 70 QUANTUMSCAPE CORPORATION: DEALS 155
12.1.3 NEDSTACK FUEL CELL TECHNOLOGY BV 156
TABLE 71 NEDSTACK FUEL CELL TECHNOLOGY BV: COMPANY OVERVIEW 156
TABLE 72 NEDSTACK FUEL CELL TECHNOLOGY BV: PRODUCTS/SOLUTIONS/
SERVICES OFFERED 156
TABLE 73 NEDSTACK FUEL CELL TECHNOLOGY BV: PRODUCT DEVELOPMENTS 157
TABLE 74 NEDSTACK FUEL CELL TECHNOLOGY BV: DEALS 157
12.1.4 ECHODYNE CORPORATION 159
TABLE 75 ECHODYNE CORPORATION: COMPANY OVERVIEW 159
TABLE 76 ECHODYNE CORPORATION: PRODUCTS/SOLUTIONS/SERVICES OFFERED 159
TABLE 77 ECHODYNE CORPORATION: PRODUCT DEVELOPMENTS 160
TABLE 78 ECHODYNE CORPORATION: DEALS 161
12.1.5 ABB LTD. 164
TABLE 79 ABB LTD.: COMPANY OVERVIEW 164
FIGURE 32 ABB LTD.: COMPANY SNAPSHOT 165
TABLE 80 ABB LTD.: PRODUCTS/SOLUTIONS/SERVICES OFFERED 165
TABLE 81 ABB LTD.: DEALS 166
12.1.6 SIEMENS AG 168
TABLE 82 SIEMENS AG: COMPANY OVERVIEW 168
FIGURE 33 SIEMENS AG: COMPANY SNAPSHOT 169
TABLE 83 SIEMENS AG: PRODUCTS/SOLUTIONS/SERVICES OFFERED 169
TABLE 84 SIEMENS AG: DEALS 170
12.1.7 3D BIOPRINTING SOLUTIONS 172
TABLE 85 3D BIOPRINTING SOLUTIONS: COMPANY OVERVIEW 172
TABLE 86 3D BIOPRINTING SOLUTIONS: PRODUCTS/SOLUTIONS/SERVICES OFFERED 172
TABLE 87 3D BIOPRINTING SOLUTIONS: PRODUCT DEVELOPMENTS 173
12.1.8 LE VERRE FLUORE FIBER SOLUTIONS 174
TABLE 88 LE VERRE FLUORE FIBER SOLUTIONS: COMPANY OVERVIEW 174
TABLE 89 LE VERRE FLUORE FIBER SOLUTIONS: PRODUCTS/SOLUTIONS/SERVICES OFFERED 174
TABLE 90 LE VERRE FLUORE FIBER SOLUTIONS: PRODUCT DEVELOPMENTS 175
TABLE 91 LE VERRE FLUORE FIBER SOLUTIONS: DEALS 175
12.1.9 ALLEVI 176
TABLE 92 ALLEVI: COMPANY OVERVIEW 176
TABLE 93 ALLEVI: PRODUCTS/SOLUTIONS/SERVICES OFFERED 176
TABLE 94 ALLEVI: DEALS 177
12.1.10 THORLABS, INC. 178
TABLE 95 THORLABS, INC.: COMPANY OVERVIEW 178
TABLE 96 THORLABS, INC.: PRODUCTS/SOLUTIONS/SERVICES OFFERED 178
TABLE 97 THORLABS, INC.: DEALS 179
12.1.11 GLOBAL GRAPHENE GROUP, INC. (G3) 180
TABLE 98 GLOBAL GRAPHENE GROUP, INC. (G3): COMPANY OVERVIEW 180
TABLE 99 GLOBAL GRAPHENE GROUP, INC. (G3): PRODUCTS/SOLUTIONS/SERVICES OFFERED 180
TABLE 100 GLOBAL GRAPHENE GROUP, INC. (G3): PRODUCT DEVELOPMENTS 181
TABLE 101 GLOBAL GRAPHENE GROUP, INC. (G3): DEALS 181
12.1.12 FRACTAL ANTENNA SYSTEMS, INC. 182
TABLE 102 FRACTAL ANTENNA SYSTEMS, INC.: COMPANY OVERVIEW 182
TABLE 103 FRACTAL ANTENNA SYSTEMS, INC.: PRODUCTS/SOLUTIONS/SERVICES OFFERED 182
TABLE 104 FRACTAL ANTENNA SYSTEMS, INC.: PRODUCT DEVELOPMENTS 182
12.1.13 HYPERSONIX LAUNCH SYSTEMS LTD. 183
TABLE 105 HYPERSONIX LAUNCH SYSTEMS LTD.: COMPANY OVERVIEW 183
TABLE 106 HYPERSONIX LAUNCH SYSTEMS LTD.: PRODUCTS/SOLUTIONS/SERVICES OFFERED 183
TABLE 107 HYPERSONIX LAUNCH SYSTEMS LTD.: PRODUCT DEVELOPMENTS 184
TABLE 108 HYPERSONIX LAUNCH SYSTEMS LTD.: DEALS 184
12.1.14 NOVO NORDISK A/S 186
TABLE 109 NOVO NORDISK A/S: COMPANY OVERVIEW 186
FIGURE 34 NOVO NORDISK A/S: COMPANY SNAPSHOT 186
TABLE 110 NOVO NORDISK A/S: PRODUCTS/SOLUTIONS/SERVICES OFFERED 187
TABLE 111 NOVO NORDISK A/S: DEALS 187
12.1.15 ENECOAT TECHNOLOGIES 190
TABLE 112 ENECOAT TECHNOLOGIES: COMPANY OVERVIEW 190
TABLE 113 ENECOAT TECHNOLOGIES: PRODUCTS/SOLUTIONS/SERVICES OFFERED 190
TABLE 114 ENECOAT TECHNOLOGIES: DEALS 191
12.1.16 FOMS, INC. 192
TABLE 115 FOMS, INC.: COMPANY OVERVIEW 192
TABLE 116 FOMS, INC.: PRODUCTS/SOLUTIONS/SERVICES OFFERED 192
TABLE 117 FOMS, INC.: PRODUCT DEVELOPMENTS 193
*Details on Business Overview, Products Offered, Recent Developments, and MnM View (Key strengths/Right to Win, Strategic Choices Made, and Weaknesses and Competitive Threats) might not be captured in case of unlisted companies.
13 APPENDIX 194
13.1 DISCUSSION GUIDE 194
13.2 KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 196
13.3 CUSTOMIZATION OPTIONS 198
13.4 RELATED REPORTS 198
13.5 AUTHOR DETAILS 199

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Table of Contents

Summary

The In Space Manufacturing Market is estimated to be USD 4.6 billion in 2030 and is projected to reach USD 62.8 billion by 2040, at a CAGR of 29.7 % during the forecast period. Due to several factors, the global market for In Space Manufacturing is expanding significantly. In Space Manufacturing delivers several key advantages which includes space based asset management, replacement and repair of satellites, cost effective manufacturing of precision engineered products . In Space Manufacturing provides government, military and commercial users with a flexible, cost-effective alternatives for improving operational capabilities of space assets, remote repair and assembly capabilities and high quality products with wide applications in terrestrial markets.
” Quantum Dots Display ”: The fastest growing segment by product technology type during the forecast period.” Based on product technology type, the In Space Manufacturing market has been segmented into Perovskite Photovoltaics cell, Graphene and solid-state Lithium batteries ,Proton Exchange membrane cells, Traction motor, Hydrogen propulsion system ,Insulin,Electromagnetic metamaterials antennas, Perfect spheres bearings, Quantum Dots Display,Tissue /organ, ZBLAN fiber optics, Zeolite crystal. Quantum Dots Displays is expected to be the fastest-growing segment during the forecast period. .Quantum dots display enables manufacturers of displays and QD-LEDs to offer competitive technology compared to traditional high-end displays currently in the market. The advantage of microgravity manufacturing of high quality quantum dots coupled with zero switching cost are key factors for the expected high uptake of this technology in the market.
“Japan to account for the largest CAGR in the In Space Manufacturing market in forecasted year”
Japan is expected to witness significant growth in the in the In Space Manufacturing market . Several factors contribute to this trend:

Expanding Space Programs:
Japan has been investing heavily in space programs and are leading in the manufacturing of key product technologies in healthcare, automotive and fiber optics industries. Japan being a developed country has a high demand for products that can be manufactured in space and used in its terrestrial markets.

Strategic Partnerships: Japan has been forming strategic partnerships and alliances with technology companies, both domestic and international, to leverage their manufacturing. These partnerships will enable the commercial players to scale the production of their products and increase uptake of semi-finished and finished space fabricated goods.

Break-up of profiles of primary participants in the In Space Manufacturing market: By Company Type: Tier 1 – 35%, Tier 2 – 45%, and Tier 3 – 20% By Designation: C-Level Executives – 35%, Director level – 25%, and Others – 40% By Region: North America – 25%, Europe – 15%, Asia Pacific – 45%, Rest of the world – 15%
Prominent companies in the in-space manufacturing market are Allevi Inc. (US), Global Graphene Group, Inc. (US), Le Verre Fluore Fiber Solutions(France),Nedstack Fuel cell Technology BV (Netherlands) and Echodyne Corporation(US).among others.
Research Coverage: The market study covers the In Space Manufacturing market across segments. It aims at estimating the market size and the growth potential of this market across different segments, such as deployment type, service model, application, end user, and region. The study also includes an in-depth competitive analysis of the key players in the market, along with their company profiles, key observations related to product and business offerings, recent developments, and key market strategies. Key benefits of buying this report: This report will help the market leaders/new entrants in this market with information on the closest approximations of the revenue numbers for the overall In Space Manufacturing market and its subsegments. The report covers the entire ecosystem of the In Space Manufacturing industry and will help stakeholders understand the competitive landscape and gain more insights to better position their businesses and plan suitable go-to-market strategies. The report will also help stakeholders understand the pulse of the market and provide them with information on key market drivers, restraints, challenges, and opportunities.

The report provides insights on the following pointers:
• Analysis of key drivers and there are several factors that could contribute to an increase in the In Space Manufacturing market.
• Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product & service launches in the In Space Manufacturing market.
• Market Development: Comprehensive information about lucrative markets – the report analyses the In Space Manufacturing market across varied regions
• Market Diversification: Exhaustive information about new products & services, untapped geographies, recent developments, and investments in the In Space Manufacturing market.
• Competitive Assessment: In-depth assessment of market shares, growth strategies and service offerings of leading players like Allevi Inc. (US), Global Graphene Group, Inc. (US), Le Verre Fluore Fiber Solutions(France),Nedstack Fuel cell Technology BV (Netherlands) and Echodyne Corporation(US). among others in the In Space Manufacturing market.

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Table of Contents

ご注文は、お電話またはWEBから承ります。お見積もりの作成もお気軽にご相談ください。

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