market reports

Shape Memory Polymers 2016-2025

This report assesses the prospects for Shape Memory Polymers (SMPs).  SMPs can be deformed, retain this deformation, but then revert to the original shape/configuration upon triggering by an external stimulus.   The metallic equivalent of SMPs – Shape Memory Alloys (SMAs) have already been a success and SMPs offer significant advantages over SMAs in terms of low-weight, malleability, low cost and biocompatibility.

As a result, n-tech is publishing this report to forecast the market for SMPs over the next ten years.  The report focuses on four key markets for SMPs – aerospace, automotive, medicine and healthcare and construction – as well niche markets for SMPs in areas such as robotics, textiles and brand protections.  For each of these end user markets, the report includes detailed revenue forecasts with breakouts by product types with in each of these markets.

The report also includes a technical chapter in which we discuss the different kinds of plastics that exhibit shape memory effects and discuss which applications each is suited to.  There is also a ten-year forecast breaking out the market by SMP material type.  This chapter also includes an assessment of manufacturing technologies for SMPs, with a discussion of scalability and cost of the processes involved.

Finally, the report contains profiles of all the leading companies active in SMP space along with a discussion of their evolving strategies.  These firms include several giant multinationals showing that while SMPs may be at an early stage of both technical and market evolution, there is already potential for serious investment in this area.

n-tech believes that SMPs are on the verge of generating sufficient revenues and this report should be of interest to established firms and entrepreneurs looking for new opportunities, not to mention venture capitalists and other investors.  

Executive Summary: Opportunities in Shape Memory Polymer    
E.1 End-User Demand for SMPs:  A Summary of Ten-Year Demand for SMPs    
E.1.1 Summary of Ten-Year Forecast by Application    
E.1.1 Summary of Ten-Year Forecast by Type of SMP    
E.2 Opportunities for Shape Memory Polymers in the Automotive Industry    
E.3 Opportunities for Shape Memory Polymers in the Aerospace Industry    
E.4 Opportunities for Shape Memory Polymers in the Medicine and Healthcare    
E.5 Opportunities for Shape Memory Polymers in the Construction Industry    
E.6 Other Opportunities for Shape Memory Polymers    
E.7 Six Companies to Watch in the Shape Memory Space    

Chapter One: Introduction    
1.1 Background to this Report    
1.1.1 SMPs are Intrinsically Superior to SMAs in Many Applications    
1.1.2 The SMP Supply Chain Can Grow Exponentially    
1.1.2 A Potentially Broad User Base for SMPs    
1.2 Objective and Scope of this Report    
1.3 Methodology of this Report    
1.4 Plan of this Report
    
Chapter Two:  Evolution of Shape Memory Polymer Technology    
2.1 Shape Memory Polymers:  Technology Fits Many Applications    
2.1.1 Technical Characteristics of SMPs    
2.2  Types of Polymers Used in Shape Memory Applications    
2.2.1 Thermo-responsive SMPs    
2.2.2 Photo-responsive SMPs    
2.2.3 Chemo-responsive SMPs    
2.2.4 Other Triggering Responses for SMPs    
2.2.5 Thermosets and Thermoplastics as SMPs    
2.2.6 Crystallizable SMPs    
2.2.7 Programmable SMPs and Combining SMPs with other Smart Materials    
2.2.8 Shape Memory Polymer Composites    
2.2.9 CHEM and SMP Foam    
2.2.10 Biocompatability and Environmental Friendliness of SMPs    
2.2.11 SMP Characteristics and Comparison with SMAs    
2.3  Manufacturing Considerations    
2.3.1 Cost of Manufacturing    
2.3.2 Scalability of Manufacturing    
2.3.3 Use of Conventional Plastics Industry Processes    
2.3.4 Mnemosynation    
2.3.5 3D Printing    
2.4 Key Points from this Chapter    

Chapter Three: Shape Memory Polymer Markets in the Automotive Industry    
3.1 Factors Driving the Market for SMPs in the Automotive Market    
3.2 Applications for SMPs in the Automotive Market    
3.2.1 SMPs/Metal Composites in the Automotive Industry    
3.2.2 Shape Memory Polymer Patches    
3.2.3 Airflow Control Devices    
3.2.4 SMPs and Fender Benders    
3.2.5 SMPs for Automatic Chokes    
3.2.6 SMPs for Tunable Brackets    
3.2.7 Other Uses for SMPs in Automotive Applications    
3.3 Challenges for SMPs in the Automotive Industry    
3.3.1 The Challenge of Thermal Profiles    
3.3.2 R&D Trends in SMP-based Composites    
3.4 Ten-Year Forecast of SMP in the Automotive Industry    
3.5 Key Points from this Chapter    

Chapter Four: Shape Memory Polymer Markets in the Aerospace Industry    
4.1 Main Industry Trends in the Aerospace Industry and their Impact on the SMP Market    
4.2  Who will Pay for SMP Deployment in Aerospace?    
4.3 Fuel Economy – A Double-Edged Sword for Smart Structures    
4.4 SMPs versus SMAs in the Aerospace Market    
4.5 Opportunity Analysis for SMP in the Aerospace Market by Type of Aircraft    
4.5.1 SMPs and UAVs    
4.5.2 SMPs, Aerospace and the Growth of Military Expenditures    
4.5.3 SMPs, Space and Helicopters:  Some Challenges    
4.6  Applications for SMPs in the Aerospace Sector    
4.6.1 Morphing and SMPs    
4.6.2  Space Environment Evaluation and Related Testing    
4.6.3 SMPCs and their Applications in Aerospace    
4.6.4 SMP and SMPC Mandrels    
4.6.5 SMP and SHM    
4.7  Ten-Year Forecasts of SMPs in the Aerospace Industry    
4.7 Key Points from this Chapter    

Chapter Five:  Medical and Healthcare Markets for SMPs    
5.1 Current Trends in the Medical Device Business:  Implications for SMPs    
5.2 Applications for SMPs in the Medical/Healthcare Sector    
5.2.1 Coil Release Systems    
5.2.2 Intravenous Syringe    
5.2.3 Cardovascular Stents and Cathetars
5.2.4 Neuronal Probes    
5.2.5 Orthodontic Implants    
5.2.6 Orthopedic Braces and Splints    
5.2.7 Opthalmic Devices    
5.2.8 Sutures    
5.2.9 Drug Delivery Systems    
5.3 SMP-based Medical Foams and Minimally Invasive Surgery    
5.4 Importance of Biodegradability    
5.5 Sterilizing SMP Devices    
5.6 Current Suppliers of Medical Devices Using SMPs    
5.7  Ten-Year Forecasts of SMPs in the Medical and Healthcare Sector    
5.8 Key Points from this Chapter    

Chapter Six:  Shape Memory Polymer Applications in the Construction Industry    
6.1 State of the Construction Industry and the Impact on SMPs    
6.2 Applications for SMP in the Construction Industry    
6.2.1 SMPs as Smart Window Sealants    
6.2.2 SMP Foams for Building Insulation    
6.2.3 SMP for Self-Repairing Concrete    
6.3 Impact of Green Building on Sales of SMP to the Construction Sector    
6.4  Ten-Year Forecasts of SMPs in the Construction Industry    
6.5 Key Points from this Chapter    

Chapter Seven:  Other Markets for Shape Memory Polymers    
7.1 Applications for SMPs Growing in Number    
7.2 Robotics    
7.3 SMP-Based Textiles    
7.4 Brand Protection and SMP    
7.5  Optical Devices and SMP    
7.6  Ten-Year Forecasts of SMPs in Other Applications    
7.7 Key Points from this Chapter    

Chapter Eight:  Companies to Watch in the SMP Space    
8.1 Structure of the SMP Supply Chain    
8.2 BASF (Germany)    
8.3 Cornerstone Research Group (United States)    
8.3.1 Commercialization of SMPs at CRG    
8.4 Covestro (Germany)    
8.4.1 Applications of Demospan DP 2795A SMP    
8.5 EndoShape (United States)    
8.6 Evonik (Germany)    
8.7 MedShape (United States)    
8.7.1 Materials    
8.7.2 Exoshape ACL Fixation System    
8.7.3 Eclipse Soft Tissue Anchor    
8.7.4 Morphix Suture Anchor Systems    
8.8 Mitsubishi and SMP Technologies (Japan)    
8.8.1 Diaplex    
8.8.2 SMP Technologies    
8.9 mNemoscience’s Bankruptcy (Germany)    
8.10 Spintech (United States)    
8.10.1 Smart Tooling    
8.10.2 Gemini Materials    
8.11 Syzygy Memory Plastics (United States)    
8.11.1 Mnemosynation    
Acronyms and Abbreviations Used In this Report    
About the Author    
 
List of Exhibits
 
Exhibit E-1: Summary of SMP Opportunities by End-User Sector 
Exhibit E-2: Ten-Year Forecast of SMPs by Application ($ Millions) 
Exhibit E-3: Product Development Directions and Opportunities. 
Exhibit E-4: Ten-Year Forecast of SMPs by Type of Material/Activation Mechanism.. 
Exhibit E-5: Five Companies to Watch in the SMP Space. 
Exhibit 1-1: Factors Driving the Future Use of Smart Memory Polymers. 
Exhibit 1-2: Current and Future Applications for Shape Memory Polymers. 
Exhibit 2-1: SMPs vs. SMAs. 
Exhibit 3-1: Selected Applications for SMPs in the Automotive Industry. 
Exhibit 4-1: Drivers for SMPs in the Aerospace Industry. 
Exhibit 4-2: Ten-Year Forecast of SMPs in Aerospace ($ Millions, except where stated) 
Exhibit 5-1: Current Megatrends in the Market for Medical Devices and their Implications for SMP Usage  
Exhibit 5-2: Summary of Generic Advantages SMP Materials for Medical Device Applications. 
Exhibit 6-1: Evolution of Smart Structures in the Construction Industry. 
Exhibit 6-2: Ten-Year Forecast of SMPs in Construction ($ Millions) 
Exhibit 7-1: Ten-Year Forecast of SMPs in Other Applications ($ Millions) 
Exhibit 8-1: SMP Patents from Cornerstone Research. 
Exhibit 8-2: SMP Technologies Products. 
Exhibit 8-3: Firms with which SMP Technologies has Commercial Relationship. 

n-tech Predicts that Revenues from Shape Memory Polymers will Exceed $1 billion in Revenues by 2021

Glen Allen, Virginia:  Industry analyst firm n-tech Research today announced the release of a new report titled “Markets for Shape Memory Polymers: 2016-2025.” According to the report the market for shape memory polymers (SMP) will exceed $1.0 billion by 2021, going on to reach $3.4 billion by 2025.

Details about the report, including a downloadable excerpt are available at: http://ntechresearch.com/market_reports/shape-memory-polymers-2016-2025

An n-tech report on shape memory alloys will be published later in Q2 of this year. 

About the report: 

This report provides a technology and market assessment of Shape Memory Polymers (SMPs).  The report focuses on four key markets for SMPs – aerospace, automotive, medicine and healthcare and construction – as well niche markets for SMPs in areas such as robotics, textiles, machine tools and and brand protection.  For each of these end user markets, the report includes detailed ten-year revenue forecasts with breakouts by product types with in each of these markets.

The report also provides a technical chapter in which we discuss the different kinds of plastics that exhibit shape memory effects and discuss which applications each is suited to.  This chapter includes a ten-year forecast breaking out the market by SMP material type, with breakouts by plastic type and activation type.  This chapter also includes an assessment of manufacturing technologies for SMPs, with a discussion of scalability and cost of the processes involved.

Companies profiled in this report include:  Aporo Biomedical, BASF, Cornerstone Research, Covestro, EndoShape, Evonik, Gemini Materials, MedShape, Mitsubishi, SMP Technologies, Spintech, Syzgy Memory Plastics and others.  

Highlights:    

By 2021, n-tech expects the revenue generated by medical/healthcare applications of SMPs to reach around $330 million.  This is an area where there are already many patents and early products covering coil release systems, intravenous syringes, stents, catheters, orthodontic implants, braces and splints, ophthalmic devices and sutures.  In the future, SMPs will find significant use in the neuronal probes and drug delivery systems.  While SMAs could be used in most of these applications, SMPs have much higher biocompatibility than SMAs, which confers considerable competitive advantages on SMP-enabled medical devices.

Medical and healthcare is the largest segment of the SMP market, closely followed by the automotive industry, which will purchase around $280 million in SMP devices in 2021.  SMP will primarily be used as a self-healing material for automobiles and trucks.  Among the products that SMPs are expected to enable here are SMP-based bumpers that will quickly recover from fender benders.  SMP/metal composites are also expected to provide similar self-healing capabilities in car bodies themselves.  Not all of the applications for SMP focus on self-healing capabilities; SMPs can also be used in airflow control devices and automatic chokes and tunable brackets.

Today’s SMPs are mostly thermo-responsive, which makes them easy to restore with equipment as simple as a hair dryer.  Even, by 2021 n-tech expects almost half of the revenues in the SMP space to come from thermo-responsive SMPs.  However, by then there will also be sizable markets for photo-responsive SMPs and chemo-responsive SMPs as well as from SMP composites of various kinds.

About n-tech:

n-tech Research is the rebrand of NanoMarkets.  Our firm is a recognized leader in industry analysis and forecasts in all of these areas.  Visit http://www.ntechresearch.com for a full listing of the firm's reports and other services. 

Contact: 

Robert Nolan 
n-tech Research 
(804) 938-0030 
rob@ntechresearch.com

posted Apr 21, 2016

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