List of Engineering Plastics products
- classification:Engineering Plastics
46~90 item / All 917 items
Reduce the workload from handling heavy objects! Here are five case studies that solved customer challenges! We are also accepting free consultations and tests tailored to your work!
- Other conveying machines
Amino acid-derived natural cationic polymer that can be used in food preservatives, hygiene materials, and daily necessities. It is a safe material as it is a fermentation product produced by natural ...
- Shelf life enhancer
Introduction of the preservative polylysine / fermented polyamino acids that contribute to food poisoning prevention.
We provide easy-to-understand materials explaining the natural preservative polylysine, which prevents food poisoning. ε-Polylysine (hereafter referred to as polylysine) is an amino acid-derived preservative widely used as a food preservative. By adding polylysine, the growth of microorganisms that cause food poisoning can be prevented. Every year, food poisoning caused by microorganisms is a significant issue and is frequently reported in the news. Even foods that do not appear to be spoiled can rapidly proliferate microorganisms if the growth environment is suitable, so caution is necessary. Even if something looks clean, contamination by bacteria can progress, posing a risk of food poisoning. By ensuring hygiene management during the manufacturing process, proper storage at appropriate temperatures, and the appropriate use of the preservative polylysine, food safety can be more effectively protected. 【Features】 ■ A safe material produced through fermentation by natural microorganisms (not genetically modified organisms) ■ Provides a good image as a natural fermented product ■ Listed in the existing additive registry as a food preservative ■ A safe domestic product *Please feel free to contact us.
Fluororesin Utilization CASE 1: Reducing maintenance costs with higher strength fluororesin!
- Engineering Plastics
Fluororesin Utilization CASE 3: Cost Reduction through the Distinction between Injection Molding and Machining!
- Engineering Plastics
Resin cutting processing
- Engineering Plastics
This is a radiation thermometer specialized for measuring film temperature. It is especially suitable for measuring the temperature of polyolefin-based films!
- Radiation thermometer
- Thermometer
- Engineering Plastics
The power of porous materials advances communication! Communication materials made from polyimide porous bodies.
- Engineering Plastics
- Other contract services
Metal alternative material with excellent mechanical strength and wear resistance - Blue Nylon.
- Engineering Plastics
Accelerating material development DX! We will exhibit at High-Performance Materials Week Tokyo.
- Other polymer materials
- plastic
- Engineering Plastics
Accelerating material development DX! We will exhibit at High-Performance Materials Week Tokyo.
- Other polymer materials
- plastic
- Engineering Plastics
Accelerating Material Development DX! We will exhibit at the High-Performance Materials Week Tokyo from November 12 to 14.
■Accelerating Next-Generation Polymer Design: Digital Chemistry Platform■ With the evolution of molecular simulation technology, we have entered an era where phenomena at the atomic and molecular levels can be reproduced and analyzed on computers. Furthermore, by combining this with machine learning, it has become possible to achieve high-precision material predictions and designs even with limited experimental data. Schrödinger strongly supports the enhancement of your analytical capabilities and the efficiency of research and development through cutting-edge molecular simulation and AI/ML technologies, as well as our unique digital platform that integrates these technologies. At this exhibition booth, our specialized staff will clearly introduce an overview of these technologies and case studies, and will also answer any questions you may have. *During the exhibition, we will hold a seminar at our booth. Location: Our exhibition booth Theme: Accelerating Next-Generation Polymer Material Development with Machine Learning and Atomic-Level Simulation 【Exhibition Information】 Exhibition Name: 14th High-Performance Plastics Exhibition within High-Functionality Materials Week Dates: November 12 (Wednesday) to 14 (Friday), 2025, 10:00 AM to 6:00 PM (ends at 5:00 PM on the last day) Venue: Makuhari Messe Halls 1-3 Booth Number: 15-10
Cost reduction with reinforced cardboard "Naviace" - Thoroughly utilizing the structure of cardboard to maintain shape! Cardboard bulk packaging for 500kg of powder/liquid materials.
- Paper and pulp products
- Engineering Plastics
- Chemicals
Management of ultraviolet (UV) intensity and cumulative light quantity.
- Assembly Machine
- Other surface treatment equipment
- Engineering Plastics
As a material for hollow fiber membranes.
- Engineering Plastics
High-Performance Materials Week: 1st Recycling Tech Japan @ Makuhari Messe
Thank you very much for your continued support. We are pleased to announce that our company, Nissei Sangyo Co., Ltd., will be exhibiting at the 1st Recycling Tech Japan, held at Makuhari Messe. We would be delighted if you could come and see our products and services directly. Exhibition Information: Exhibition: High-Performance Materials Week Tokyo, 1st Recycling Tech Japan Dates: November 12 (Wednesday) to 14 (Friday), 2025, 10:00 AM to 6:00 PM Booth Number: 23-39 Exhibition Content: Compatibilizers, adhesive for dissimilar materials, crystal nucleating agents, metal substitute resins, compound and film molding contract business.
Unleashing creativity, the moonlit INARI.
- Injection Molding Machine
- Engineering Plastics
- Pneumatic Equipment
Reservation for a tour of original products.
Overview We are accepting reservations for product tours for customers considering purchasing our products. We offer one and a half hour slots from 13:30 to 15:00 on weekdays, with three slots available each week. Products Available for Tour - Pneumatic Injection Molding Machine INARI P35 - Manual Injection Molding Machine INARI M06/M12 - Tabletop Pelletizer CONERI CN-3035A - Tabletop CNC Milling Machine KitMill AST200 - Tabletop CNC Milling Machine KitMill RZ300/420 - Tabletop CNC Milling Machine KitMill CL100/200/420 - Tabletop CNC Milling Machine KitMill BS100/200 - Tabletop CNC Milling Machine KitMill MOC900
Introducing the material "PEEK," which is gaining attention in various industries, in this column!
- Engineering Plastics
Introducing a column on considering the conservation of energy resources!
- Engineering Plastics
Introducing super engineering plastics such as polyimide and PEEK in a column!
- Engineering Plastics
Our company, which develops and manufactures engineering plastic tubes, introduces the features of polyimide (TPI) in a column.
- Engineering Plastics
Introducing key points for material selection in the medical field in our column!
- Engineering Plastics
Introducing the differences between engineering plastics and super engineering plastics in a column!
- Engineering Plastics
[Attention Design Engineers!] High-performance sliding PPS resin composite materials active in fields requiring sliding properties and wear resistance!
- Engineering Plastics
- Composite Materials
- plastic
[Attention Design Engineers!] Precision parts molded in one shot without the need for post-processing! High-precision epoxy resin composite materials.
- plastic
- Engineering Plastics
- Composite Materials
【A must-see for designers!】No secondary processing required, leading to cost reduction. Our proprietary PEI resin composite material excels in heat resistance, dimensional accuracy, and mechanical pro...
- Engineering Plastics
- Composite Materials
- plastic
PasCom is a functional resin based on biomass polyamide, with all fillers made from biomass or recycled fillers.
- Engineering Plastics
Announcement of new grade of biomass plastic composite material PasCom
We have newly added high sliding grade BFS310 and high rigidity grade TR345 to the biomass plastic composite material PasCom. PasCom now has three grades, making it suitable for various applications. It is particularly well-suited for parts that require wear resistance, sliding properties, and lightweight characteristics, making it ideal for those struggling to find biomass materials suitable for mechanical components. Additionally, despite having a high biomass content, it offers high rigidity, low warpage, and low shrinkage, allowing for the addition of even greater value to products where the use of biomass materials has previously been difficult. Features of each grade: PasCom S40 A standard grade of PasCom suitable for lightweight applications, featuring excellent wear resistance, dimensional stability during moisture absorption, and anti-static properties. PasCom BFS310 A high sliding grade that significantly improves wear resistance by reducing the coefficient of friction. It has a low friction coefficient and extremely high wear resistance. Like S40, it is low in specific gravity, providing a high lightweight effect. PasCom TR345 A high rigidity grade that uses recycled carbon fibers. Its moisture absorption is minimized, resulting in small decreases in physical properties and dimensional changes during moisture absorption. Its specific gravity is less than 1.3, making it lightweight as a reinforced resin.
This is a material developed to address challenges such as "high thermal conductivity, metal adhesion, low-temperature curing, and low-pressure molding." We can provide proposals that include customiz...
- Engineering Plastics
- plastic
- Composite Materials
Numerous adoption results in the food industry from the automotive sector! Capable of handling high precision orders of 1/100 millimeter and composite materials! *Can create drawings in 3D even withou...
- Contract manufacturing
- plastic
- Engineering Plastics
Renewable biomass resources! Maintaining carbon neutrality even when incinerating waste.
- plastic
- Engineering Plastics
Basic Knowledge of Super Engineering Plastics
- Engineering Plastics
Basic Knowledge of Engineering Plastics
- Engineering Plastics
Basic Knowledge of General-purpose Plastics
- Engineering Plastics
Introduction to PAI (Polyamide Imide)
- Engineering Plastics
Introduction to PC (Polycarbonate)
- Engineering Plastics