Biocompatibility Testing for Silicone Devices Silicone rubber is widely used in medical devices for its flexibility, durability, and biocompatibility. Ensuring the biocompatibility of silicone is crucial to confirm that it does not cause adverse reactions when in contact with human tissues. This report outlines the biocompatibility testing processes and standards our silicone products meet to […]
Silicone Testing for Medical Devices Silicone rubber is used in medical devices for its flexibility, durability, and safety. Tests ensure it meets international standards and is free from harmful substances. Silicone Testing Methods for Medical Devices We use advanced methods like Inductively Coupled Plasma Optical Emission Spectrometry (ICP-OES) and Gas Chromatography-Mass Spectrometry (GC-MS) to detect
Proposition 65 Safety Tests for Silicone California Proposition 65, also known as the Safe Drinking Water and Toxic Enforcement Act of 1986, requires businesses to warn about significant exposures to chemicals that cause cancer, birth defects, or other reproductive harm. Ensuring compliance with Proposition 65 is crucial for silicone product manufacturers to guarantee consumer safety.
EN 71-3 Compliance Testing for Silicone Toys EN 71-3:2019 is a vital safety standard for toys, focusing on the migration of elements harmful if ingested or inhaled by children. This standard is part of the broader EN 71 series, ensuring the safety of toys sold in the European Union. Compliance with EN 71-3 confirms that
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Silicone Rubber and RoHS Compliance: Key Considerations RoHS (Restriction of Hazardous Substances) compliance ensures silicone rubber products are safe and environmentally friendly. This standard limits hazardous materials in electrical and electronic products. RoHS compliance confirms silicone rubber is free from harmful substances, making it suitable for electronics and medical devices. ICP-OES Analysis Inductively Coupled Plasma
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ICP-OES Analysis for Silicone Rubber Inductively Coupled Plasma Optical Emission Spectrometry (ICP-OES) is a precise analytical technique for detecting and quantifying trace elements in materials like silicone rubber. This report covers the use of ICP-OES to analyze silicone rubber, ensuring compliance with safety standards such as EN 71-3:2019 and California Proposition 65. Principle of Operation:
Silicone Product Safety and Standards Portal This platform provides detailed information on the latest testing methods, compliance standards, and certifications for silicone manufacturing. It includes pages on key testing techniques like GC-MS and ICP-OES, guides on compliance with RoHS, EN 71-3, and Proposition 65, and resources for product-specific testing needs. Whether you’re a manufacturer, regulatory
This guide outlines the test methods and equipment used in GC-MS analysis for silicone products, along with the relevant test standards that manufacturers and clients should adhere to.
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Custom Silicone Solutions for Marine Applications: Meeting Industry and Custom Needs The marine environment challenges materials with saltwater, UV radiation, and mechanical stress. Silicone, known for its durability and resistance to extreme conditions, is an ideal solution. This post explores how silicone products can protect and enhance marine vessels. Services Contact Information Technical Advantages of
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MOQ stands for Minimum Order Quantity. It’s the smallest order a maker will take. It’s important in manufacturing. MOQ balances what makers need and what the market wants. It links them in the supply chain. This part talks about MOQ, what it means, and why it matters, especially in making silicone products.
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