Heating Plate Applications in Advanced New Material Industry

Heating Plate Applications in Advanced New Material Industry

Ultra-precise constant temperature heating is a core processing condition for advanced new material synthesis, composite curing, film forming and post-treatment. Our heating plates serve carbon fiber composite, graphene, ceramic matrix composite, PI high-performance film and bio-degradable new material production. Featuring ultra-flat surface, wide temperature range, excellent temperature uniformity, low outgassing and anti-corrosion performance, they stabilize material molecular structure, eliminate internal defects, enhance tensile strength, thermal stability and finished material consistency.
New Materials Industry

Carbon Fiber Composite Prepreg Curing Heating Plate

Carbon Fiber Composite Curing Heating Plate

Working Condition: Step constant temperature curing for carbon fiber epoxy prepreg used in aerospace and new energy vehicle structural parts

Configuration: 750×550mm cast aluminum alloy plate, staged 90℃→130℃→160℃, whole plate uniformity ±0.6℃, pressure-resistant flat surface

Application Results: Zero internal bubbles and delamination, composite tensile strength increased by 21%, structural part reject rate reduced from 6.8% to 0.9%

Graphene Conductive Film Annealing Heating Station

Graphene Film Annealing Heating Platform

Working Condition: High-temperature annealing to remove solvent and repair graphene lattice for flexible conductive heating film

Configuration: Φ320mm high-purity AlN ceramic plate, 200–450℃, precision ±0.2℃, low outgassing vacuum compatible surface

Application Results: Graphene sheet resistance uniformity improved 78%, film conductivity boosted by 25%, flexible bending service life extended greatly

High-Temperature PI Polyimide Film Stretching & Curing Heating Plate

PI-Film-Forming-Curing-Heater

Working Condition: Thermal imidization baking for ultra-thin PI base film used in FPC and lithium battery separator

Configuration: 900×600mm multi-zone split heating plate, 180–320℃ segmented control, transverse uniformity ±0.5℃

Application Results: Film thickness deviation ≤0.003mm, thermal shrinkage rate below 0.4%, high-temperature resistance stability upgraded significantly

Biodegradable PLA/PBAT Material Molding Stress Relief Platform

Biodegradable-Material-Stress-Relief-Heating-Plate

Working Condition: Low-temperature annealing to release injection molding residual stress for disposable biodegradable packaging parts

Configuration: 650×450mm anti-stick anodized aluminum plate, 45–95℃, full surface uniformity ±0.4℃, non-stick coating finish

Application Results: Product long-term storage warpage reduced by 85%, brittleness under low temperature weakened, finished packaging pass rate increased by 11%