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[MIM Case Study] Transportation Equipment Parts

[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

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Teibo Co., Ltd. MIM (Metal Injection Molding) Technology Introduction

Teibo Co., Ltd. MIM (Metal Injection Molding) Technology Introduction

A metal parts processing method created by merging traditional plastic injection molding and metal powder metallurgy! That is MIM (Metal Injection Molding).

MIM (Metal Injection Molding) is a composite technique that was developed by merging traditional plastic injection molding methods with metal powder metallurgy. It excels in mass production, allowing for the easy manufacturing of fine and precise parts, as well as complex shapes and three-dimensional components that are difficult to machine using conventional methods. Our company uses this technology to produce parts such as the tips of writing instruments. 【Features】 ■ Complex shaped metal parts can be realized almost in their final form ■ Three-dimensional structures such as lateral holes and grooves can be easily achieved ■ Ideal for mass production ■ Capable of producing high-density and high-strength products ■ Near-net-shape allows for labor-saving and cost reduction in post-processing *For more details, please refer to the catalog or feel free to contact us.

  • stainless

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Mass production of hollow structure parts realized by MIM method *Materials for adopted fields are currently available!

Mass production of hollow structure parts realized by MIM method *Materials for adopted fields are currently available!

Achieved hollow shapes that are typically difficult to manufacture with molds using MIM (Metal Injection Molding). Mass production is also possible due to having one of the top-class production equipment holdings in the industry!

Injection molding using molds allows for the easy production of fine and precise parts with complex shapes and three-dimensional geometries that are difficult to machine. It excels in mass production, with Teibo capable of handling monthly outputs ranging from 1,000 to 1 million units. In recent years, it has also become possible to produce hollow shapes that were previously considered difficult to manufacture. 【Features of MIM Method】 ■ Complex Shapes Metal parts with complex geometries can be achieved in nearly final shape (near-net shape). ■ Design Freedom Three-dimensional structures such as lateral holes and grooves can be easily realized. Parts with shapes that did not exist before, or multiple parts that were used together, can be integrated into a single design. ■ Mass Production Similar to plastic molding, it allows for multiple part production and automation, making it suitable for large-scale manufacturing. ■ Precision By using high-quality powders, a homogeneous density and minimal distortion in the molded body can be achieved, resulting in high density and high strength. ■ Difficult-to-Machine Materials By achieving near-net shapes with difficult-to-machine materials such as SUS, Ti, and W alloys, it is possible to reduce processing steps and enhance the added value of products. ■ Cost Near-net shapes allow for labor-saving in post-processing and cost reduction.

  • Drive system parts

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