Global High Impact Polystyrene in 3D printing Market, 2014-2024: by type (Gray EPS and White EPS), and by Application (Healthcare, House Hold, Automotive, Electrical & Electronics, and Others)
|3D列印用耐衝擊性聚苯乙烯的全球市場(2014年∼2024年):各類型，各用途 Global High Impact Polystyrene in 3D printing Market, 2014-2024: by type (Gray EPS and White EPS), and by Application (Healthcare, House Hold, Automotive, Electrical & Electronics, and Others)|
|出版日期: 2020年08月01日||內容資訊: 英文||
High impact polystyrene is also abbreviated as HIPS. It is blend of polystyrene plastic and polybutadiene rubber. It has similar printing property as ABS. It is use with ABS, making it a logical dual extrusion partner. It is suitable for lighter weight printing product, as it is more dimensionally stable and slightly lighter than ABS. High impact polystyrene is not hygroscopic. High impact polystyrene based prints can be decorated using a variety of printing methods. It is tough durable material, has good impact resistance and ease of finishing as compare to other plastics. High impact polystyrene is transparent, crystal-clear element with a glossy surface.
High Impact Polystyrene can be categories into gray EPS (expanded polystyrene) and white EPS (expanded polystyrene). High Impact Polystyrene has wide area of end use industry applications included healthcare, house hold appliances, automotive, electrical & electronics. It is widely used to produce smaller objects directly from HIPS filament. It is also incorporated for the manufacturing of disposable crockery, cutlery, DVD/CD case, building materials, housings of electronic assemblies and insulating parts. It also found application in packaging and food industry. It is also used for creating a wide range of small functional parts in automotive industry. HIPS is also widely used for finishing in 3D printing module. The high-density product with complex geometries of automotive engine parts and components can manufactures with HIPS plastics. It has the ability to create lightweight parts and components through optimization tool and advanced computer-aided design (CAD) processes. It also found application in the medical appliances.
The global high impact polystyrene in 3D printing market research report sheds light on the market circumstances by carrying out primary and secondary research for more than 320 hours. As per the report, the global high impact polystyrene in 3D printing market is growing at a fast pace and increasing its geographical footprint rapidly. The global high impact polystyrene in 3D printing market is valued at US $ xxx million dollars in 2019 which is forecast to grow at CAGR of xx% and reach a massive US $ xxx million dollars by the end of 2024 in value.
The growth is comparatively higher in North America region due to increasing the end use applications in medical, aerospace, automotive and R&D sector. The major growth driver for high impact polystyrene in 3D printing market are ease of print with dual material and advantages to color the filament. Also increase demand in medical sector for functional surgical instruments components, rising adoption in production of household small appliances, electronic assemblies and insulating parts, and the rising demand of prototype model of complex geometry in automotive industry is expected to drive the high impact polystyrene in 3D printing market globally.
The high raw material price volatility is the major impediment to the expansion of global high impact polystyrene in 3D printing market.
High impact polystyrene in 3D printing enjoy wide usage across all major regions in the world including Europe, APAC, North America, Middle East and Africa, and South America. These regions serve large number of manufacturers and supplier and are hence responsible for the growth of high impact polystyrene in 3D printing market globally. The companies that lead global market are, BASF SE, Total S.A., Synthos S.A., Kaneka Corporation, ACH Foam Technologies, LLC, Synbra Holding B.V. , Saudi Basic Industries Corporation (SABIC), Go3D, Zortrax, 3Dmensionals and MatterHackers.
The research process includes the market segmentation of the global high impact polystyrene in 3D printing market, identifying the growth determinants of every market segment and market forecasts. All the market forecasts are done in accordance with the inputs taken from the global high impact polystyrene in 3D printing market industry experts from across the global industry. Market Krystal conducts more than 40 interview hours dedicated for this study, the same are mentioned below: