Product Abstract
Hong Ye silicone rubber‘s Precision Laboratory Anti-Corrosion Shockproof Foaming Silicone Rubber is laboratory anti-chemical inert Addition Curing Silicone, lab instrument vibration isolation protection RTV Silicone Foam. Made from chemical inert laboratory-gradeliquid silicone, this anti-reagent shock-absorbing Foam Silicone features chemical corrosion resistance, micro-vibration isolation, dust-free purification and low static performance, with adjustable 3-6 times high-precision foaming ratio. It is used for laboratory precision analytical instrument base cushion, chemical test bench gap sealing, dust-free laboratory equipment shockproof filler, biological experiment instrument buffer liner. Matched with laboratory precision flat Mold Silicone, the inert anti-corrosion Foamed Silicone forms high-purity shock-absorbing Silicone Sponge for dust-free laboratory environment protection.
Product Overview
This laboratory dedicated two-component liquid silicone adopts ultra-pure inert formula, no chemical reaction with common laboratory acids, alkalis and organic reagents, and will not produce dust or static interference. As high-stability purification Addition Curing Silicone, it effectively isolates external micro-vibration that affects instrument detection accuracy. After dust-free precise foaming, it forms anti-vibration purification Silicone Sponge. Different from ordinary industrial foam easy to absorb chemical dust and corrode, this inert RTV Silicone Foam meets laboratory dust-free and anti-interference standards, belonging to precision lab equipment dedicated protective Foaming Silicone Rubber.
Core Product Features & Advantages
1. Chemical inert anti-corrosion: Stable molecular structure of Foaming Silicone Rubber resists various laboratory reagent erosion.
2. Micro-vibration isolation: High-damping liquid silicone eliminates tiny vibration interference of precision instruments.
3. Dust-free and anti-static: Compact non-shedding Foam Silicone ensures laboratory purification environment.
4. High-precision stability: Low-shrinkage Addition Curing Silicone does not deform to affect instrument calibration.
5. Laboratory flat molding: Fits test bench and instrument standardized Mold Silicone shaping.
6. Easy cleaning and maintenance: Smooth cured Foamed Silicone surface is resistant to reagent residue adhesion.
Step-by-Step Usage Instructions
1. Dust-free stirring: Stir laboratory-grade A/B liquid silicone in purification workshop to avoid particle contamination.
2. Accurate proportional mixing: Mix 1:1 steadily for 3 minutes to stabilize anti-corrosion and shock absorption performance.
3. Precision defoaming: Remove micro bubbles to ensure flat and uniform shock absorption of Silicone Sponge.
4. Lab mold curing: Mold forming via laboratory precisionMold Silicone to obtain purification RTV Silicone Foam.
Application Scenarios
Spectrometer and chromatograph base shockproof pad, chemical laboratory test bench gap sealing strip, dust-free laboratory equipment anti-vibration filler, biological precision experiment instrument buffer liner, medical laboratory purification gap filling. The inert Foamed Silicone guarantees high-precision detection data stability in laboratory.
Precautions
Avoid long-term immersion in high-concentration strong corrosive reagents to protect the inert structure of Addition Curing Silicone.
Packaging & Storage
25KG purification dust-free sealed barrel, constant temperature sterile storage, keep lab-grade purity of raw Foam Silicone.
FAQ
Q1: Effectively isolate micro-vibration of precision laboratory instruments?
A1: High-precision damping Foaming Silicone Rubber eliminates tiny vibration interference efficiently.
Q2: Resist common laboratory chemical reagent corrosion?
A2: Fully inert Addition Curing Silicone adapts various chemical experiment environments.
Q3: Match standardized laboratory equipment with Mold Silicone?
A3: High-flatness RTV Silicone Foam fully complies with laboratory precision assembly standards.