Applications

Aerospace / Composites
Baking
Electronics
Heat Sealing
Jerky / Food Processing
Screen Printing
Solar Energy
Welding
Wind Energy

Wood Working



STANDARD SHEET 34" WIDE BY 44" LONG

PRODUCT

 

THICKNESS

(INCHES)

STANDARD

TOLERANCE +/-

 

HPPLAM-005

 

0.0050

53.50

 

HPPLAM-006

 

0.0060

0.0008

 

HPPLAM-008

 

0.0080

0.0010

 

HPPLAM-010

 

0.0100

0.0015

 

HPPLAM-012

 

0.0120

0.0015

 

HPPLAM-015

 

0.0150

0.0015

 

HPPLAM-025

 

0.0250

0.0200

 

HPPLAM-027

 

0.0270

0.0250

 

HPPLAM-030

 

0.0300

0.0030

 

HPPLAM-031

 

0.0310

0.0030

 

HPPLAM-0312

 

0.0312

0.0030

 

HPPLAM-040

 

0.0400

0.0035

 

HPPLAM-050

 

0.0500

0.0035

 

HPPLAM-062

 

0.0625

0.0040

 

HPPLAM-078

 

0.0781

0.0045

 

HPPLAM-093

 

0.0937

0.0050

 

HPPLAM-125

 

0.1250

0.0060

 

HPPLAM-187

 

0.1870

0.0065

 

HPPLAM-250

 

0.2500

0.0080

 
  • DISCOUNT WILL BE APPLIED FOR VOLUME ORDERS
  • Delivery: 1-4 weeks ARO if out of stock, or as arranged based on volume.


Applications

Aerospace / CompositesSolar EnergyHeat SealingJerky / Food ProcessingWood WorkingScreen PrintingWeldingWind Energy



Products

HOMETAPESFABRICSFILMSBELTSSILICONE RUBBERTEXTILES ALUMINIZED FABRIC/FIBERGLASS



Applications: For fabrication of radiant fire suits for civil, military, emergency services and homeland security. Removable insulation systems, heat shields and fire barriers, fire protection, transportation and equipment protection, industrial high temperature safety apparel; hoods, aprons, jackets and gloves and mitts. HP-SHIELD HPA302 Light weight with higher thermal insulation properties Manufactured from a very light weight, texturized DE-glass into a balanced plain weave with Oil & Water Resist PTFE coating (OWR), HPA302 is intended as an insulating high heat outer fabric used with liner materials such as FR Cotton or wool. HP-SHIELD HPF621 The lightest weight option for radiant heat protection The substrate fabric is woven from high strength, continuous ?lament E-grade fiberglass; HPF621 is the lightest weight, MLA Fabric available. The same radiation protection as heavier weight fabrics, without the bulk, but the same 1000 F burn through protection of E-Grade fiberglass. Plain weave construction provides for an ultra smooth reflective surface, made from inorganic materials, it won't smolder or produce hazardous out gassing. HP-SHIELD HPA601 Mid-weight fiberglass provides insulation and flexibility Supporting maximum service temperatures to 1000°F, HPA601 offers a perfect blend of insulation protection (K-Value), with moderate levels of flexibility. Made from texturized DE fiberglass yarns, and coated OWR for improved abrasion resistance, flexual fatigue performance and reduced skin irritation, HPA601 provides the most economical solution for a wide range of high temperature heat shielding applications. HP-SHIELD HPF407 Strong, lightweight facing fabric Made from continuous ?lament yarn, HPF407 is strong, thin, and lightweight, and is cost affective, performance equivalent alternative to FR Rayon. The twill weave provides strength and flexibility and a special OWR coating reduces abrasion wear, increases flex-fatigue resistance and prevents wicking of water and oils. HP-SHIELD HPA801 Maximize Burn-through protection with superior insulation At a base fabric weight of 24 osy, HPA801 is intended to maximize the insulation properties and offer the greatest level of protection against high heat as well as sparks and metal splatter. Well suited for industrial applications where the higher level of rigidity is also advantageous such as industrial Heat shields. HP-SHIELD HPF824 Tough and conformable facing fabric Made from continuous ? lament plied fiberglass e-yarns, with an 8 harness satin weave, HPF824 is the strongest, yet most conformable aluminized fiberglass fabric available. HPF824 exhibits exceptional tear and puncture resistance, while offering ideal seam strength making it the fabric of choice for aluminized gloves, hoods and industrial aprons. HP-SHIELD Multi-Level Aluminization Process (MLA) The HP-SHIELD MLA process uses vapor deposition to apply fine, highly reflective aluminum particles on both sides of a high temperature polymer film which is them bonded to the fabric substrate with a proprietary adhesive system which is activated through the use of heat and pressure. The combination of thermal, chemical and mechanical bonded results in an integrated finish fabric which will not delaminate under any normal flexing conditions. The resulting fabric exhibits the highest achievable level of radiant reflectivity, chemical and moisture resistance, and thermal protection. Most fabrics have been tested and surpass the highest level ratings of the EN 531, performance standard.