We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for Molded parts.
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Molded parts Product List and Ranking from 141 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

Molded parts Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

  1. トピア 本社工場、名古屋事業所、神奈川事業所、埼玉営業所、神奈川営業所 Mie//Automobiles and Transportation Equipment
  2. INDO-MIM Private Ltd. Aichi//Manufacturing and processing contract
  3. 三浦化成工業 Yamanashi//Manufacturing and processing contract
  4. 4 河辺商会 Osaka//Resin/Plastic
  5. 4 山田精工 Niigata//Manufacturing and processing contract

Molded parts Product ranking

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

  1. Steel Tube Air Forming for Automotive Parts トピア 本社工場、名古屋事業所、神奈川事業所、埼玉営業所、神奈川営業所
  2. Toei Chemical Industry Co., Ltd. Business Introduction 東栄化学工業 本社
  3. Biomass plastics that consider the environment [Technical documentation available] 大和合成
  4. Nichigo Industry Co., Ltd. Technology Introduction "Bulge Forming" 日工産業
  5. 4 LCP thin-walled molding smartphone camera parts 山田精工

Molded parts Product List

211~238 item / All 238 items

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Prototype with mass production materials for infrastructure (plastic, rubber)

To civil engineering and infrastructure companies considering prototypes with mass production molding materials.

In the civil engineering and infrastructure industry, the durability and safety of structures are crucial. By prototyping with materials intended for mass production at the prototype stage, it becomes possible to evaluate under conditions that simulate actual usage environments, leading to improved product reliability. This is particularly significant for products exposed to outdoor environments, where material selection greatly influences product lifespan. Prototyping with mass production materials allows for early detection of issues and appropriate material selection. Our company proposes a method for producing prototypes with mass production materials before mass production. 【Application Scenarios】 - Prototyping of infrastructure equipment - Prototyping of components for civil engineering structures - Prototyping of outdoor installation equipment 【Benefits of Implementation】 - Improved product reliability through prototyping with mass production materials - Early detection of issues and countermeasures - Reduction of initial costs

  • Resin processing machine
  • Molded parts

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Metal Injection Molding (MIM) for the Energy Industry

Mass production of complex-shaped fuel injection nozzles using metal injection molding.

In the energy industry, particularly in fuel injection nozzles, high precision and durability are required. The shape of the nozzle, which affects combustion efficiency, is intricate and complex, making high quality essential. Metal Injection Molding (MIM) is a manufacturing method that meets these demands. 【Application Scenarios】 - Manufacturing of fuel injection nozzles - Mass production of parts requiring high precision 【Effects of Implementation】 - Precise reproduction of complex shapes - Quality improvement due to high dimensional accuracy - Cost reduction through mass production

  • stainless
  • Molded parts

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Metal Injection Molding (MIM) for Aerospace Turbines

For mass production of complex shapes. Optimal metal injection molding (MIM) for aerospace turbine components.

In the aerospace industry, turbine components require high precision and durability. Especially for turbine parts used in high-temperature and high-pressure environments, their performance is directly linked to the safety of aircraft, making a reliable manufacturing process essential. Metal Injection Molding (MIM) is suitable for the production of aerospace turbine components because it can mass-produce parts with complex shapes with high precision. 【Application Scenarios】 - Aerospace turbine blades - Turbine nozzles - Other complex-shaped turbine components 【Benefits of Implementation】 - Improved turbine performance through high-precision part manufacturing - Increased design flexibility through the production of complex-shaped parts - Cost reduction by establishing a mass production system

  • stainless
  • Molded parts

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Metal Injection Molding (MIM) for Electronic Devices

Metal injection molding (MIM) enables mass production of complex shapes. It is ideal for manufacturing connectors.

In the electronics industry, connectors are required to have complex shapes and high precision due to the miniaturization and high density of products. The quality of connectors significantly impacts the overall performance of electronic devices, making dimension accuracy and reliable components essential. Metal Injection Molding (MIM) is the optimal manufacturing method to meet these demands. 【Application Scenarios】 - Connectors for small electronic devices - High-density mounting connectors - Connectors for precision instruments 【Benefits of Implementation】 - Mass production of complex-shaped connectors - Improved product quality due to high dimensional accuracy - Enhanced durability through surface treatment

  • stainless
  • Molded parts

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[For Tools] Metal Injection Molding (MIM)

Ideal for mass production of complex shapes. Perfect for high-strength tool components.

In the tool industry, product durability and precision are required. Particularly for tool components subjected to high loads, high strength and dimensional accuracy significantly influence product performance. Traditional manufacturing methods have faced challenges in terms of cost and time when producing complex shapes and high-precision parts. Metal injection molding (MIM) addresses these issues. 【Application Scenarios】 - Tool components requiring high strength - Tool components with complex shapes - Tool components needed for mass production 【Benefits of Implementation】 - Achieves high strength and dimensional accuracy - Enables mass production of complex-shaped parts - Contributes to cost reduction and shorter delivery times

  • stainless
  • Molded parts

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[MIM Case Study] Transportation Equipment Parts

Cost reduction through labor hour reduction! A case study adopted for the production of difficult-to-process parts.

We would like to introduce a case where our "MIM manufacturing method" was adopted for transportation equipment parts. Before adoption, it was necessary to perform fitting processing at the joints, and the cost of composite parts and joining processes was a challenge. The method was adopted for cost reduction and mass production. This manufacturing method enables labor-saving in post-processing and cost reduction through near-net-shape production. 【Case Overview】 ■Technical Overview: Integration of two parts ■Challenges before adoption: - Fitting processing at the joints was necessary - High costs for composite parts and joining processes ■Reason for adoption: Cost reduction, mass production ■Features/Benefits: Cost reduction through labor-saving, mass production *For more details, please refer to the related links or feel free to contact us.

  • Processing Contract
  • Molded parts

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Cutting-free processing using large fine blanking.

It is possible to achieve extremely thick press molding without any burrs. No cutting is required after processing, contributing to cost reduction!

Press processing involves placing a workpiece on a die and pressing it with a punch. In conventional press processing, a significant clearance (the gap between the die and the punch) is often required, which can lead to the occurrence of "dimpling" and "burrs" on the processed material. "Fine Blanking (FB) processing" is a method that applies pressure from both directions with minimal clearance. This results in a finish with fewer dimples and burrs, eliminating the need for post-processing. Additionally, it allows for processing while maintaining the thickness of the material, significantly contributing to the reduction of raw material costs. 【Main Achievements】 ■ Automotive disc brakes ■ Automotive muffler flange components ■ Automotive and motorcycle gear components and more *For more details, please download the PDF or feel free to contact us.

  • Engine parts
  • Vehicle body parts
  • Molded parts

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[Forming Technology] SYSTEX Molding | Shimizu Industry

Integrated molding technology of polyurethane foam and resin.

Shimizu Industries' "SYSTEX Molding Technology" is a technique that inserts urethane foam into a mold and forms it together with resin. Since the urethane foam and resin are strongly anchored together, there is no concern about peeling. *If you have any questions about what we can do, please feel free to consult with us!

  • Interior parts
  • Electrical equipment parts
  • Other machine elements
  • Molded parts

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THY Precision Industry - Precision Injection Molding

Leave the precise, delicate, yet essential parts to us.

THY Precision Industries has a clean room in-house, so we specialize in products such as plastic parts for medical devices with high dust prevention requirements, bio-related components, optical-related clear parts, and transparent components.

  • Other optical parts
  • Molded parts

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Toyota Kako Co., Ltd. for Pharmaceutical Quality Control

Supporting pharmaceutical quality control with plastic injection molding technology.

In the pharmaceutical industry, precise components are essential to ensure the safety and reliability of products. Plastic parts require chemical resistance and molding accuracy, which influence the functionality and safety of the products. Toyota Kako Co., Ltd.'s plastic injection molding technology can meet these demands. 【Application Scenarios】 - Pharmaceutical containers - Inspection equipment parts - Analytical equipment parts 【Benefits of Implementation】 - Quality improvement through high-precision component supply - Increased product reliability - Cost reduction

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Parts made by press forming for automobile lightweighting.

Achieving lightweight automotive parts through press forming technology.

In the automotive industry, reducing the weight of parts has become an important issue for improving fuel efficiency and reducing environmental impact. In particular, the lightweighting of the vehicle body contributes to enhanced driving performance and is essential for strengthening competitiveness. Sugimura Seiko Co., Ltd.'s press forming technology enables the production of high-strength and lightweight parts, contributing to the lightweighting of automobiles. 【Application Scenes】 - Seatbelt parts - Electric power seat parts - Electric power steering parts - Engine sprockets - Gears for electric actuator reduction gears 【Effects of Implementation】 - Improved fuel efficiency due to lightweight parts - Cost reduction through material cost savings - Enhanced safety with high-strength parts

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TPR Corporation for Medical Devices

Supporting the medical device field with automotive-related products and precision molding technology.

In the medical device industry, precise component molding is required to ensure product safety and reliability. Particularly in medical devices that directly relate to patient health, the accuracy of components affects product performance, and defects can lead to serious consequences. The precision molding technology cultivated by TPR Corporation in automotive-related products contributes to the high-quality manufacturing of medical device components. 【Application Scenarios】 - Medical device components requiring precise shapes - Components demanding durability and safety - Support for small-batch, diverse production 【Effects of Implementation】 - Improved product reliability through high-quality component supply - Enhanced product accuracy through precision molding technology - Response to diverse needs

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Introduction of Exhibiting Companies at the Aerospace Festival Fukushima 2025

Nichiko Industrial Co., Ltd.

Explanation of parge forming (rolling forming) and exhibition of aircraft parts and others produced by the same method.

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Kyo-Den Company Limited

Not only parts processing but also assembly.

We can consistently manufacture everything from parts processing to assembled finished products. We also handle plastic molding in-house, from mold design and manufacturing to molded products. Design and manufacturing of small, quiet compressors.

  • others
  • Molded parts

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Lightweighting using large RIM molded products for automobiles

Large-scale plastic molding for lightweighting in automobiles.

In the automotive industry, reducing vehicle weight is a crucial challenge for improving fuel efficiency and reducing CO2 emissions. To achieve weight reduction, it is essential to change the materials of components and reconsider their structures. Achilles Teflon's RIM molding allows for more flexible designs compared to traditional injection molding, enabling shape designs that contribute to weight reduction. This allows for greater design freedom, balancing lightweight construction with aesthetic appeal. 【Application Scenarios】 - Automotive parts (interior, exterior) - Parts that require weight reduction - When wanting to enhance design flexibility 【Effects of Implementation】 - Improved fuel efficiency due to weight reduction - Increased design flexibility - Potential cost savings

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Easier fastening than conventional products! Fully automatic CIP suitable for powder molding.

Models that can be installed in approximately 1 tatami mat space are also available. Supports up to 300 MPa! Fully automatic CIP suitable for molding powders such as ceramics, featuring a unique turn-lock mechanism.

We have started handling the new CIP mechanism manufactured by ENERGYN. The ECIP series features a unique turn-lock mechanism using saw blade screws, making it a static and smart CIP machine. Despite its compact size, it can handle pressures up to 300 [MPa]. We also offer models that fit within an installation area of about one tatami mat. With a unique opening and closing method that reconsiders traditional yoke frame and pink closure types, the use of saw blade screws instead of full-thread screws allows for easy fastening with a 30° rotation, which is a key feature. *Saw blade screws: A fastening method that is strong against axial loads, achieved through a combination of square and triangular screws. We can also design and manufacture rubber molds for powder molding of Wet-Bag CIP. If we have rubber molds in stock, the initial molding test may be free of charge. Please feel free to contact our sales team. *If you are interested, please download the catalog or feel free to reach out to us.

  • Powder Molding Machine
  • Molded parts

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Leave the pressing of difficult-to-process materials to us! We can process 590MPa high-strength steel sheets without cracking.

Achieving deep drawing of 590MPa high-tensile steel plates! Enabling forging alternatives through press processing of high-strength materials to meet the mass production needs in the automotive sector.

Are you struggling with the handling of difficult-to-process materials such as high-tensile steel sheets? With Shimizu Seiko's advanced deep drawing technology, it is possible to form 590MPa class high-tensile materials, which are prone to cracking during processing, beautifully and reliably. Utilizing this technology, we propose replacing parts that previously required forging with press processing, even those that need high strength. Since high-strength materials can be pressed as they are, there is no concern about compromising the product's toughness. 【Features】 - Forming without generating cracks even with 590MPa class high-tensile materials - Capable of deep drawing not only for steel and stainless steel but also for aluminum - Contributes to shortening manufacturing lead times by transitioning from forging to pressing - Enables stable mass production despite the high difficulty of processing For any questions regarding detailed shape design or performance evaluation, please feel free to consult us. We look forward to your requests for catalogs and inquiries through our website.

  • Other processing machines
  • Press Dies
  • Other Auto Parts
  • Molded parts

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High-quality prototypes at mass production level - Small lot injection molded parts

Almost all types of plastic (resin) are supported. Small lot production can be completed in about 10 to 20 days.

Utilizing a variety of technologies such as injection molding, press and sheet metal processing, mold manufacturing, and cutting processing, we create high-precision parts specialized in each technology and assemble them consistently as a single prototype internally. Even prototypes can be delivered at the same level as mass-produced products. This is Makuti's greatest strength. 【Main Applications】 - Connectors, optical components, insert molding - Exterior parts - Molding of super engineering plastics - Painting, silk printing, plating (outsourced) *For details, please refer to our equipment and prototype examples available for download in the catalog.

  • Processing Contract
  • Contract manufacturing
  • Molded parts

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Metal Injection Molding (MIM) for Automotive Engine Parts

Mass production of complex-shaped engine parts. Achieving high dimensional accuracy and strength.

In the automotive engine parts industry, miniaturization and high performance are advancing, and complex-shaped parts are in demand. High strength that can withstand the high temperature and high pressure environment inside the engine, as well as precise dimensional accuracy, are important. Metal Injection Molding (MIM) is the optimal manufacturing method to meet these requirements. 【Application Scenes】 - Turbocharger parts - Injector parts - Valve seats - Other complex-shaped engine parts 【Effects of Introduction】 - Mass production of complex-shaped parts with high precision - A wide range of material options to meet various performance requirements - High strength and durability - Contribution to cost reduction

  • stainless
  • Molded parts

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Metal Injection Molding (MIM) for Electronic Devices

Ideal for complex-shaped connectors. High-quality products through metal injection molding (MIM).

In the electronics industry, connectors are crucial components that influence product performance and reliability. As miniaturization and high density progress, connectors require high precision and durability. In particular, stability in signal transmission and robustness to withstand long-term use are essential. Metal Injection Molding (MIM) is the optimal manufacturing method to meet these demands. 【Application Scenarios】 - Connectors for small electronic devices - Connectors requiring high-density mounting - Connectors that demand durability 【Benefits of Implementation】 - Improved product quality due to high dimensional accuracy - Capability to handle complex shapes such as sharp edges and irregular holes - Enhanced durability through heat treatment and surface treatment equivalent to that of cast materials

  • stainless
  • Molded parts

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Metal Injection Molding (MIM) for Information and Communication Technology

Metal Injection Molding (MIM) capable of mass production of complex shapes.

In the information and communication industry, particularly in optical fiber components, high precision and durability are required. Optical fiber components are responsible for transmitting optical signals, and even slight dimensional deviations or surface roughness can lead to signal attenuation or connection failures. Metal Injection Molding (MIM) addresses these challenges by enabling the manufacture of high-quality optical fiber components with high dimensional accuracy and excellent surface treatment. Daiichi Shoko's MIM contributes to improving the reliability of our customers' products. 【Usage Scenarios】 - Optical fiber connectors - Optical transceiver components - Optical communication modules 【Benefits of Implementation】 - Improved product quality due to high dimensional accuracy - Enhanced optical signal transmission efficiency through surface treatment - Establishment of a flexible production system to accommodate small quantities and diverse varieties

  • stainless
  • Molded parts

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[VA Proposal] Reduce sag in forged and machined products through press processing!

Reduce costs and man-hours for molded parts through press processing! *We will present a collection of case studies where man-hours and costs were reduced through VA proposals.

Tokuhatsu improves the significant sagging that occurs in the drawing process with conventional bar processing through press processing! At Tokuhatsu, we utilize a variety of press processing technologies such as punching, bending, drawing, shaving, and cold forging to produce high-quality products. Additionally, we assist in reducing costs and man-hours for formed parts and improving yield through VA proposals that leverage our many years of experience and know-how in process transformation! [Included in the case study collection] - Increased thickness processing - High-strength drawing processing - Transforming "forging + cutting" into "press processing" - Irregular wire processing *For more details, please refer to the catalog or feel free to contact us.

  • Axle parts
  • Molded parts

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[Problem Solving] Issues with Rubber Products: Our VA Proposal and QCD Effects

Examples of significant price reductions and cases where fundamental measures were implemented, eliminating risks in the market!

Here are some examples of past evaluations we have received. Regarding the content of the drawings that were somewhat over-specified, we inquired about the intended use and proposed several alternative material grades. After conducting an evaluation and making changes to the drawings, the adoption of materials that balanced price and performance led to significant cost reductions and earned us a rationalization award. Our company is prepared to offer various proposals tailored to our customers' needs, aiming to provide optimal solutions in terms of quality, price, and lead time. Please feel free to contact us when you need assistance. [Case Study] ■ Issue: Over-specified content in the drawings ■ Solution: Proposed several alternative material grades ■ Result: Led to significant cost reductions *We also accept online meetings. If you would like an explanation about rubber or have projects you are considering, please do not hesitate to let us know. *For more details, please feel free to contact us.

  • Rubber
  • Molded parts

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Light resistance test cleared! Prolonged lifespan achieved by adding UV-absorbing components to the IMD surface foil.

No material change is necessary. UV-absorbing components will be added to the double in-mold surface foil, and it will pass the light resistance test.

In cover lenses and automotive exterior panels, light stability that prevents yellowing and appearance deterioration due to long-term UV exposure is required. Yoshida Techno Works has established a method to incorporate UV-absorbing components into the surface film (surface foil) in the double in-mold process, granting light stability functionality simultaneously with molding. Since post-molding painting and coating processes are unnecessary, we achieve process reduction and cost reduction while passing light stability tests. In addition to our application results for BC7/VG4 cover lenses for Fujitsu Plastics/Rhythm Shoei, we also have a track record of proposing and passing tests for weather-resistant foils for automotive parts (K0F) for Honda Motor Co. The formulation of UV-absorbing components and film selection can be customized according to product requirements and testing standards.

  • others
  • Contract manufacturing
  • Molded parts

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Eliminate the misalignment of glass inserts! Improved accuracy with CL + GP method.

Variability in glass insertion leads to molding defects. The combination of the centering table and guide pins stabilizes positional accuracy.

In glass insert molding (GIM), if the insertion position of the glass into the mold varies, it can lead to various molding troubles such as uneven resin filling, glass misalignment, sealing defects, and appearance issues. Yoshida Techno Works has developed and adopted a unique insertion method that incorporates a centering mechanism on the glass insert platform, allowing for precise positioning using guide pins when inserting the glass into the mold. This method eliminates variations in position during manual glass insertion and ensures stable insertion accuracy across all mass-produced units. We have established this method in the mass production of DL35 (GIM products) for Sharp, significantly reducing molding defects caused by glass positioning issues.

  • others
  • Contract manufacturing
  • Molded parts

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Steel Tube Air Forming for Automotive Parts

Light, strong, and simple. Achieving lightweight and high strength in the exhaust system.

In the automotive industry, lightweighting and high strength are always required for structural components. To improve fuel efficiency and ensure collision safety, it is essential to reduce the weight of parts while maintaining high durability. Steel Tube Air Forming provides innovative solutions to these challenges. 【Application Scenes】 - A-pillar - Bumper reinforcement - Door beam - Cross member - Side rocker 【Effects of Implementation】 - Improved fuel efficiency through lightweighting - Enhanced durability through increased strength - Cost reduction through a decrease in the number of parts

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Oriental Chain Industry Co., Ltd.

Dramatically improve the dimensional variation, density, and shape stability of metal injection molding! Currently adopted in domestic medical device parts, critical automotive components, and electronic device parts!

Oriental Chain Industry Co., Ltd. specializes in medical device parts and automotive components produced by metal injection molding, as well as mini chains for power transmission in the smallest class in the industry, super engineering plastic chains, and chains for machine tools. The company excels in manufacturing metal injection molded parts with high density and excellent dimensional stability, hollow precision parts, components for small chains produced by precision pressing, and precision assembly.

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Shinaki Plastic Industry Co., Ltd.

I always face forward and challenge possibilities!

Main products: Manufacturing of various plastic parts (molding and processing of plastic components in the fields of home appliances, automobiles, and industrial equipment). Core technologies/specialized processing: Molding of fans such as propellers and blowers, insert molding of welding machine parts. Capable of producing molded products for fields requiring heat resistance and functionality, utilizing the characteristics of plasticity and hardness.

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