Introduction to Molding Methods
Introduction to Molding Methods
Takagi Seiko is responding to the demands for high precision and high functionality in plastic products by working on the development and practical application of new processing technologies from a medium- to long-term perspective. The variations in molding methods that do not allow competitors to catch up enhance the market competitiveness of products and serve as a resource to unlock new possibilities for plastics.
1~8 item / All 8 items
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Rotational molding (fuel tanks, urea water tanks, various tanks, etc.)
Ideal for medium and small lot products, allowing for low mold investment!
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Injection Molding MCF Molding (Ultra-Fine Foam Molding) MuCell
No sagging with thick meat! We propose lightweight and low-warp products!
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Molding Technology: DCP-RIM
Achieving integrated molding for large-scale, low to medium volume production. Capable of handling complex shapes!
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Rotational Molding
Molds that fit inside a 2m diameter hemisphere can be formed! Suitable for complex hollow products.
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Insert molding
Achieving integrated molding of different materials through insert molding! Proven track record in domestic hybrid vehicle motors!
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High-precision metal insert molding technology / TS high-speed stamping molding system
Presentation of Technical Data: Promoting process and product innovation in manufacturing with high-quality proprietary technology!
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High rigidity and confidentiality plastic molding technology! What is rotational molding?
Proven results in urea water tanks for diesel engine vehicles! Rotational molding technology that enables the addition of functionalities such as shock resistance, airtightness, and uniformity to complex shapes.
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Reduction of environmental impact: ultra-fine foaming molding (plastic foaming)
Exhibiting at the Automotive Technology Exhibition! Contributing to plastic reduction through fine foaming molding technology.
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