Thermally Conductive Flame-Retardant Compound for LED: Performance and Safety for Advanced Lighting
The rapid adoption of LED lighting systems has been facilitated by the ability to produce lamp housings using thermally conductive technopolymers, materials whose processing flexibility enables the molding of versatile products.
Colorable Antistatic Compound for ATEX Applications: Safety and Aesthetics in Technical Materials
Safety in the presence of explosive atmospheres has been regulated for years by European ATEX directives, which identify, among many parameters, the maximum limit of surface electrical resistivity
Technopolymer Compounds for Renewable Energy: Advanced Materials for a Sustainable Future
Renewable energy sources and energy saving have long been at the center of attention of global industrial, political and financial systems.
Biodegradable PLA-based Thermoplastic Compound: Sustainability and Performance for Eco-Friendly Products
The rapid evolution of sustainable and low environmental impact products certainly rewards those Companies that see “green” products as an important opportunity to share with the market
Thermally Conductive Compound for Automotive Applications: Performance and Lightweight Solutions under the Hood
Weight reduction is a primary necessity in automotive and transportation in general.
High-Performance Thermally Conductive Compound: Guide to Advantages and Myths
Nearly ten years after their market introduction, the commercial success of thermoplastic compounds with improved thermal conductivity can be considered consolidated.
LATI Medical Compounds: Safety, Sterilizability and Performance for the Healthcare Sector
Polymers used to produce medical devices and packaging can be sensitive to hydrolysis caused by autoclave sterilization
Non-toxic Radiopaque Compound for Medical Devices: Innovation and Safety
Present for several years in LATI’s special products portfolio, LATIGRAY X-ray opaque and shielding compounds now offer an additional possibility to meet the requirements of the medical sector
Self-lubricating Compound for Industrial Automation
Lowering the coefficient of friction and increasing wear resistance as much as possible: these are the goals set for Saroplast to replace sintered metal in a highly critical application in the automation sector.
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