Model: | PAEK-GF30 |
---|---|
Brand: | AvaSpire PAEK |
Origin: | Made In United States |
Category: | Chemicals / Resin |
Label: | AvaSpire AV-651 , VICTREX PEEK , AvaSpire PAEK |
Price: |
US $0.01
/ KG
|
Min. Order: | 25 KG |
Live Chat: | Last Online:15 Jan, 2021 |
Solvay AvaSpire PAEK (polyaryletherketone)
high-performance polyketones tailored to fill cost and performance gaps between PEEK and other high-performance polymers. For example, ductility and toughness can be significantly improved versus comparable grades of PEEK, delivering 20% higher tensile elongation at yield and doubled tensile elongation at break values.
Higher stiffness than PEEK from 150°C to 190°C
Improved ductility and toughness
Excellent chemical resistance
UL 94 V0 rating at 0.8 mm
Excellent aesthetics and colorability
AvaSpire AV-621
Highest performing unreinforced AvaSpire grade, tough, better ductility and higher HDT than comparable PEEK, low melt flow for extrusion and injection molding.
,
AvaSpire AV-651 GF30 BK (instead of Victrex PEEK 150GL30 &Victrex PEEK 450GL30)
30% glass fiber, better chemical resistance than AV-621, high melt flow for injection molding.
.
AvaSpire AV-651 GS30 BK ACC13 & ACC03
30% glass sphere(glass bead) reinforced PAEK resin.
.
AvaSpire AV-651 CF30 BK
30% carbon fiber reinforced grade,
,
AvaSprre AV-750 GF40
40% glass fiber,high melt flow for injection molding
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PAEK RESIN | Color | Origin | Material No. | Available |
AvaSpire AV-651 GF30 BK | Black | USA | 188208 | 5,500 KG |
AvaSpire AV-651 GS30 BK ACC13 | Black | China | 196887 | 4,500 kg |
AvaSpire AV-651 GS30 BK ACC03 |
Black ACC03 Accessory Black |
China |
197790 _ |
1,500 kg 1,000 kg |
AVASPIRE AV-630 | NT | TZA5CC | 85800 | 1,000 kg |
.
Higher stiffness than PEEK from 150 °C to 200 °C
AvaSpire® AV-651 has a modulus twice that of unfilled PEEK at 180 °C (356 °F). AvaSpire® AV-651 GF30 provides a modulus that is 30% higher than comparable PEEK material at the same temperature.
AvaSpire® AV-651 exhibits 20% higher elongation at yield than of unfilled PEEK. Tensile elongations at break values are at least twice as high as comparable PEEK grades.
**Any inquire about PAEK/PEEK materials contact e-mail: x.g.chiang@gmail.com