KAXITE new Patent 41mm width thermal insulation strip Uf value below 2.0W, (in most energy-saving window systems, it could realize the Uf value below 1.5 W/m2K, and the whole window Ut below 0.8 W/m2K....[ View More ]
The Patent shape "IC" thermal breaks, have better mechanical performance than the shape "I", also can prevent from the dust, water, shaping, has a better appearance than shape "C"....[ View More ]
Shape "T" thermal breaks in aluminium frame, realizing better Uf value than the shape I and shape C thermal breaks. Breaking the air flowing in the cavity that between the polyamides....[ View More ]
Traditional shape "C" thermal break strip will not prevend dust, water from getting into the internal structure due to the gap, now we designed and realized the improved shape C polyamide thermal break -- Shape IC strut for better safety, better appearance, longer age....[ View More ]
Advantages Of Polyamide Thermal Break Over Resin Thermal Break...[ View More ]
KAXITE TECHNOLOGY was audited by MADE IN CHINA in Sep, 2016...[ View More ]
The thermal performance of window frames can easily be calculated using 2D numerical simulations. Several
commercial software packages are available, and international standards provide a clear methodology to calculate
the thermal transmittance. However, even though these methods are well known in a...[ View More ]
The technology in window and door profiles has advanced significantly in recent years which has enabled windows and doors to be painted different colours inside and out. Less than 1o years ago this was a very difficult process that for many windows and doors could only be achieved by having a ...[ View More ]
Difference between KAXITE PA66GF, improved PVC, and UPVC profiles...[ View More ]
PA DIVISION VIDEO of KAXITE TECHNOLOGY, taken in the year of 2014....[ View More ]
Wherever the most demanding technical requirements must be satisfied – in the automotive and machinery industries but also in the household appliance and leisure sectors – designers have often had to rely on metal in the past. But this is where plastics can provide the greatest benefits, since w...[ View More ]
Both Polyamide 6 (PA6) and Polyamide 66 (PA66) are widely used in many different markets and applications due to their excellent performance / cost ratios. Many parts are made with these polyamides in the Transportation, Electronics & Electrical, Consumer goods, Building...[ View More ]
Fibre-reinforced plastic (FRP) (also fibre-reinforced polymer) is a composite material made of a polymer matrix reinforced with fibres. The fibres are usually glass, carbon, aramid, or basalt. Rarely, other fibres such as paper or wood or asbestos have been used. The polymer is usually an epoxy, vin...[ View More ]