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Packaging industry

Injection Molding market 2020 BY MANUFACTURERS, REGIONS, TYPE AND APPLICATION, FORECAST TO 2026

  • Code : SMI12684
  • Pages : 220
  • Date : Nov, 2019
  • Category : Packaging
  • Publisher : SMI
  • Format : CMI Insight PPT FormatSMI Insight PDF Format



 

Impact Analysis of Covid-19

The complete version of the REPORT will include the impact of the COVID-19, and anticipated change on the future outlook of the industry, by taking into the account the political, economic, social, and technological parameters.

Injection molding is an industrial production technique for creating plastic parts by injecting heated material into a fully formed mold. Injection molding can be carried out using a host of different materials mostly consisting of plastics, thermoplastics, metals, glasses, and most importantly thermo-plastics and polymers. The polymers and plastics are usually the additives that are added to the metal or glass in an injection mold to make it melt and create the part that will be used in an end product. Although the injection molding process is not one that is used on a daily basis in most factories, it is still considered one of the most critical stages in the manufacturing process because it is the stage in which the part is created.

Market Dynamics

Launch of advanced injection molding machines is expected to propel growth of the United States injection molding machine market over the forecast period. For instance, in November 2020, King Steel Machinery Co. launched dual-color rubber injection molding machine with exclusive advanced functions, including dual shots for both hard and soft materials, multi-injector and multi-mold design and smart manufacturing. Moreover, significant growth in the FMCG sector is also expected to boost demand for plastic packaging solutions, thereby propelling growth of the market.

Launch of solutions for simulating injection molding is expected to offer lucrative growth opportunities for players in the United States injection molding machine market. For instance, in November 2020, Altair, a global technology company providing solutions in data analytics, simulation, and high-performance computing, launched Altair Inspire Mold, an end-to-end solution for simulating injection molding.  Moreover, launch of new injection molded PCR plates is also expected to aid in growth of the market. For instance, in May 2021, AlphaGem Bio, a supplier of medical labware for liquid transfer handling, launched a polymerase chain reaction (PCR) plate made of TOPAS cyclic olefin copolymer (COC) from Polyplastics USA.

Key Takeaways

  • Increasing interment in injection molding machines is expected to propel growth of the United States injection molding machine market over the forecast period. For instance, in May 2021, Boddingtons, a medical device manufacturer, invested in five new injection molding machines to meet demand for a new OEM client in the pharmaceutical sector.
  • Major players operating in the United States injection molding machine market are focused on adopting partnership strategies to enhance their market share. For instance, in April 2021, Arburg Inc. signed a contract with the Würth Additive Group for the distribution of the Freeformer in the U.S and Canada.
  • Major players operating in the United States injection molding machine market include, Arburg GmbH + Co KG, Chen Hsong Machinery, ENGEL Holding, Guangdong Yizumi Precision Machinery, Haitian International Holding, Nissei Plastic Industrial, Sumitomo (SHI) Demag Plastics Machinery, The Japan Steel Works, Toyo Machinery & Metal, Hikon, and Ambica Plastic Machinery

Market Taxonomy
The report segments the global injection molding market on the basis of material type, machine type, end-use industry, and geography. On the basis of material type, the market is segmented into plastic, metal, ceramics, rubber, and other materials. On the basis of machine, the market is segmented into hydraulic injection molding machine, all-electric injection molding machines, hybrid injection molding machines. The end users are sub-segmented into automotive, consumer goods, packaging, healthcare, electrical & electronics, building & construction, furniture and others. On the basis of geography, the market is divided into North America, Latin America, Europe, Asia Pacific, Middle East, and Africa. Among all regions, Asia Pacific contributes a major market share, supported by increased industrial growth and per capita income of the population.

Key Features of the Study:

• This report provides an in-depth analysis of the reprocessed devices market and provides market size (US$ Bn), Kilotons, and Cumulative Annual Growth Rate (CAGR) (%) for the forecast period (2017-2025)
• It elucidates potential revenue opportunities across different segments and explains attractive investment proposition matrix for this market. It provides valuable insights about market drivers, restraints, opportunities, new product launches or approval, pipeline products, regional outlook, and competitive strategy adopted by the leading players
• It profiles leading players in the global injection molding market based on the following parameters - company overview, financial performance, product portfolio, geographical presence, key developments, and future plans
• Insights from this report would allow marketers and the management authorities of the companies to make informed decisions with respect to their future product launch, market expansion, and marketing tactics
• The global injection molding market report caters to various stakeholders in this industry, including investors, product developers, distributors, packaging companies, research institutes, injection molding companies, new entrants, and financial analysts
• Stakeholders would greatly benefit in decision-making through the various strategy matrices used in analyzing the injection molding market

Detailed Segmentation:

• Global Injection Molding Market, By Material:
o Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
o Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
o Ceramics
o Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
o Others

• Global Injection Molding Market, By Machine:

o Hydraulic Injection Molding Machine
o All-Electric Injection Molding Machines
o Hybrid Injection Molding Machines

• Global Injection Molding Market, By End User:

o Automotive
o Consumer Goods
o Packaging
o Healthcare
o Electrical & Electronics
o Building & Construction
o Furniture
o Others

• Global Injection Molding Market, By Geography:

o North America
 U.S.
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 Canada
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
o Europe
 U.K.
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 Germany
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 Italy
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 France
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 Russia
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 Rest of Europe
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
o Asia-Pacific
 China
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 India
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 Japan
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 ASEAN
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 Australia
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 South Korea
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 Rest of Asia Pacific
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
o Latin America
 Brazil
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 Mexico
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 Rest of Latin America
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
o Middle East
 GCC
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others

 Israel
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
o Africa
 North Africa
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 Central Africa
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others
 South Africa
 By Material:
 Plastics
 ABS
 Polypropylene
 Polyoxmethylene (POM)
 Polycarbonate
 Polycarbonate / ABS
 PVC
 Nylon
 Nylon 32% Glass Fiber
 Acrylic (PMMA)
 Styrene Butadiene (SB)
 Polyether Imide(PEI)
 Engineering Thermoplastic Polyurethane (EPU)
 HDPE
 LDPE
 Liquid Crystal Polymer
 LLDPE
 Polybutylene Terephthalate (PBT)
 PEEK
 PET
 Polysulfone (PSU)
 Polyphenylene Sulfide
 Others
 Metal
 Iron
 Low Alloys Steels
 Stainless Steel
 Aluminum
 Cobalt
 Copper
 Carbide
 Precious Metals
 Nickel Metals
 Others
 Ceramics
 Rubber
 Liquid Silicone Rubber (LSR)
 LSR Fluorosilicone
 LSR Medical
 LSR Optical
 Thermoplastic Vulcanizate (TPV)
 Thermoplastic Urethane Powder (TPU)
 Others
 Others
 By Machine:
 Hydraulic Injection Molding Machine
 All-Electric Injection Molding Machines
 Hybrid Injection Molding Machines
 By End User:
 Automotive
 Consumer Goods
 Packaging
 Healthcare
 Electrical & Electronics
 Building & Construction
 Furniture
 Others

• Company Profiles

 BASF SE*
 Company Overview
 Product Portfolio
 Financial Performance
 Key Strategies
 Recent Developments
 Future Plans
 ExxonMobil
 LyondellBasell
 Eastman Chemical Company
 Huntsman Corporation
 Dow Chemicals
 DuPont
 SABIC
 Ineos Group
 Magna International Inc.
 HTI Plastics
 Organovo Holdings, Inc.

"*" marked represents similar segmentation in other categories in the respective section.

Table of Contents
1. Research Objective and Assumption
o Research Objectives
o Assumptions
o Abbreviations
2. Market Purview
o Report Description
? Market Definition and Scope
o Executive Summary
? Market Snippet By Materials
? Market Snippet By Machine
? Market Snippet By End-Use Industry
o Coherent Opportunity Map (COM)
3. Market Dynamics, Regulations, and Trends Analysis
o Market Dynamics
? Drivers
? Supply Side Drivers
? Demand Side Drivers
? Economic Drivers
? Restraints
? Market Opportunities
? Regulatory Scenario
? Industry Trend
? Epidemiology/Prevalence/Incidence
? Merger and Acquisitions
? New Product Approvals/Launch
? Promotion and Marketing Initiatives
o Cost Tier Down Analysis
4. Global Injection Molding Market, By Material, 2016 - 2025 (US$ Million & Kilotons)
o Introduction
? Market Share Analysis, 2015 and 2025 (%)
? Y-O-Y Growth Analysis, 2016 - 2025
? Segment Trends
o Plastics
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
? ABS
? Polypropylene
? Polyoxmethylene (POM)
? Polycarbonate
? Polycarbonate / ABS
? PVC
? Nylon
? Nylon 32% Glass Fiber
? Acrylic (PMMA)
? Styrene Butadiene (SB)
? Polyether Imide(PEI)
? Engineering Thermoplastic Polyurethane (EPU)
? HDPE
? LDPE
? Liquid Crystal Polymer
? LLDPE
? Polybutylene Terephthalate (PBT)
? PEEK
? PET
? Polysulfone (PSU)
? Polyphenylene Sulfide
o Metal
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
? Iron
? Low Alloys Steels
? Stainless Steel
? Aluminum
? Cobalt
? Copper
? Carbide
? Precious Metals
? Nickel Metals
? Others
o Ceramics
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
o Rubber
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
? Liquid Silicone Rubber (LSR)
? LSR Fluorosilicone
? LSR Medical
? LSR Optical
? Thermoplastic Vulcanizate (TPV)
? Thermoplastic Urethane Powder (TPU)
? Others
o Others
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
5. Global Injection Molding Market, By Machine, 2016 - 2025 (US$ Million & Kilotons)
o Introduction
? Market Share Analysis, 2015 and 2025 (%)
? Y-O-Y Growth Analysis, 2016 - 2025
? Segment Trends
o Hydraulic Injection Molding Machine
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
o All-Electric Injection Molding Machines
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
o Hybrid Injection Molding Machines
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
6. Global Injection Molding Market, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
o Introduction
? Market Share Analysis, 2015 and 2024 (%)
? Y-O-Y Growth Analysis, 2016 - 2025
? Segment Trends
o Automotive
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
o Consumer Goods
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
o Packaging
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
o Healthcare
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
o Electrical & Electronics
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
o Building & Construction
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
o Furniture
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
o Others
? Introduction
? Market Size and Forecast, and Y-O-Y Growth, 2016 - 2025, (US$ Million & Kilotons)
7. Global Injection Molding, By Regions, 2016 - 2025 (US$ Million & Kilotons)
o Introduction
? Market Share Analysis, By Region, 2015 and 2024 (%)
? Y-O-Y Growth Analysis, For Regions, 2016 - 2025
o North America
? Market Share Analysis, By Country, 2015 and 2024 (%)
? Y-O-Y Growth Analysis, By Country, 2016 - 2025
? U.S.
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? Canada
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
o Europe
? Market Share Analysis, By Country, 2015 and 2024 (%)
? Y-O-Y Growth Analysis, By Country, 2016 - 2025
? U.K.
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? Germany
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? Italy
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? France
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? Russia
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? Others
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
o Asia Pacific
? Market Share Analysis, By Country, 2015 and 2024 (%)
? Y-O-Y Growth Analysis, By Country, 2016 - 2025
? China
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? India
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? Japan
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? ASEAN
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? Australia
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? South Korea
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? Others
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
o Latin America
? Market Share Analysis, By Country, 2015 and 2024 (%)
? Y-O-Y Growth Analysis, By Country, 2016 - 2025
? Brazil
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? Mexico
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? Others
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
o Africa
? Market Share Analysis, By Country, 2015 and 2024 (%)
? Y-O-Y Growth Analysis, By Country, 2016 - 2025
? Northern Africa
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? Central Africa
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? South Africa
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
o Middle East
? Market Share Analysis, By Country, 2015 and 2024 (%)
? Y-O-Y Growth Analysis, By Country, 2016 - 2025
? GCC Countries
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
? Israel
? Country Trends
? Market Size and Forecast, By Materials, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By Machine, 2016 - 2025 (US$ Million & Kilotons)
? Market Size and Forecast, By End-Use Industry, 2016 - 2025 (US$ Million & Kilotons)
8. Competitive Landscape
o Heat Map Analysis
o Market Share Analysis (3x3 Matrix)
o Company Profiles
? BASF SE
? Company Overview
? Product Portfolio
? Financial Performance
? Recent Developments/Updates
? Future Plans
? ExxonMobil
? Company Overview
? Product Portfolio
? Financial Performance
? Recent Developments/Updates
? Future Plans
? LynodellBasell
? Company Overview
? Product Portfolio
? Financial Performance
? Recent Developments/Updates
? Future Plans
? Eastman Chemical Company
? Company Overview
? Product Portfolio
? Financial Performance
? Recent Developments/Updates
? Future Plans
? Huntsman Corporation
? Company Overview
? Product Portfolio
? Financial Performance
? Recent Developments/Updates
? Future Plans
? Dow Chemicals
? Company Overview
? Product Portfolio
? Financial Performance
? Recent Developments/Updates
? Future Plans
? DuPont
? Company Overview
? Product Portfolio
? Financial Performance
? Recent Developments/Updates
? Future Plans
? SABIC
? Company Overview
? Product Portfolio
? Financial Performance
? Recent Developments/Updates
? Future Plans
? INEOS Group
? Company Overview
? Product Portfolio
? Financial Performance
? Recent Developments/Updates
? Future Plans
? Magna International Inc.
? Company Overview
? Product Portfolio
? Financial Performance
? Recent Developments/Updates
? Future Plans
? HTI Plastics
? Company Overview
? Product Portfolio
? Financial Performance
? Recent Developments/Updates
? Future Plans
? Organovo Holdings, Inc.
? Company Overview
? Product Portfolio
? Financial Performance
? Recent Developments/Updates
? Future Plans
o Analyst Views
9. Section
o References
o Research Methodology
o About Us and Sales Contact
*Browse 90 market data tables and 40 figures on "Injection Molding Market - Global forecast to 2025".

 



Frequently Asked Questions

The report efficiently evaluates the market from various dimensions to deliver an end-product that is informative, elaborate, and accurate and includes detailed market segmentation, regional analysis, and competitive landscape of the industry.
The report efficiently evaluates the current market size and provides industry forecast. The market was valued at xx Million US$ in 2019, and is expected to grow at a CAGR of xx% during the period 2020-2027.
The report efficiently evaluates the current market size and provides forecast for the industry in terms of Value (US$ Mn) and Volume (thousand ton / metric ton / cubic meter).
Market is segmented by Types, Applications, Technology, End-use Industries, and Regions.
The report presents the current market size, and market forecast, market opportunities, key drivers and restraints, regulatory scenario, industry trend, PESTLE analysis, PORTER’s analysis, new product approvals/launch, promotion and marketing initiatives, pricing analysis, export-import analysis, trade analysis, competitive landscape which help businesses in decision making. The analysis data is based on current and historical market trends which help in investment related decisions.
Custom research is crucial components of the business strategy which helps any organization to gain insight into specific business sector, aligned with specific area of interest. Thus, SMI offers more accurate, pragmatic, and actionable information specifically tailored to suit your business needs.

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