11 Years manufacturer SV-666 Neutral silicone sealant to Greenland Manufacturers

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Description

SV-666 neutral silicone sealant is a neutral curing glue single component, the modulus of the. It is specially designed for windows and doors caulking sealing general plastic doors and windows. It has good adhesion to glass and aluminum alloy, and has no corrosion.

Where  to use

It is fit for multiple purpose sealing and bonding applications to form a silicone rubber adhering to adjacent substrates e.g. glass, ceramic, tile, wood and metal.

Key Features

1. 100% silicone

2. Easy to use

3. Waterproofing and weatherproofing

4. Primerless adhesion to most building materials

5. 12.5% movement capability

Technical data sheet

Certification

JC/T881-2001 12.5E；GB/T14683-2003 12.5E

Color

Black，White，Gray

Package

300ml in cartridge * 24 per box, 590ml in sausage *20 per box

Shelf life

12 months

Note

If you want the TDS or MSDS or other details, please contact with our sales person.

Twin Home experts review on sure coat white reflective coating system for flat roofs.A few steps on how to apply .

This video presents a biomimetic propulsion mechanism, inspired by the flexible undulating fins encountered in certain electric eel species (knifefishes, in particular).

The prototype is comprised of eight actively-controlled fin rays (driven by R/C servos), which are interconnected by a flexible silicone membrane. Propulsion is obtained by the propagation of a traveling wave along the fin, obtained through appropriately coordinated motions of the rays.

The results from a series of detailed parametric investigations (sample runs are shown in this video) reveal several important findings regarding the effect of the undulatory wave kinematics on the propulsion speed and efficiency.

Based on these findings, two alternative strategies for propulsion control of the robotic fin have been developed. In the first one, the speed is varied through changes in the undulation amplitude (Amplitude Modulation Velocity Control scheme), while the second one involves simultaneous adjustment of the undulation frequency and number of waves (Frequency/Phase Modulation Velocity Control scheme), in a manner which enables attaining a specified desired swimming speed with optimum efficiency.

The video presents experiments demonstrating closed-loop position control of the prototype, based on these two strategies.

Additional details can be found in the following publication:
M. Sfakiotakis, J. Fasoulas, M.M. Kavoussanos, and M. Arapis, “Experimental investigation and propulsion control for a bio-inspired robotic undulatory fin,” Robotica, vol. 33, no. 5, pp. 1062–1084, 2015.