Stanyl® TW200F3
15%ガラス強化, 熱安定
一般情報
Stanyl®は、自動車、電気・電子機器のギア、汎用エンジン用途に使用されている高性能ポリアミド46です。
Stanyl®は 、優れた耐熱性、靭性、耐摩耗・摺動性、高い流動性が要求されるような過酷な用途にも対応し、高い性能を発揮します。
Stanyl®は220 ℃の高温でも機械的特性を維持するため、PPA(PA6T、PA9T)及びPPSやLCPを上回るような極めて高い性能が要求される用途に理想的な樹脂材料です。
製品
Stanyl®TW200F3は、サイクルタイムの利点と優れた流動性を組み合わせて、特に高温で優れた耐クリープ性、強度、剛性、耐疲労性を提供する高熱ポリアミドです。
Stanyl®TW200F3は、サイクルタイムの利点と優れた流動性を組み合わせて、特に高温で優れた耐クリープ性、強度、剛性、耐疲労性を提供する高熱ポリアミドです。
特徴
- Heat stabilized
ダウンロード
各種規制
- Absence Declaration BNST2023-11-16
- Absence Declaration Biocidal Products2023-11-16
- Absence Declaration DMF (2009/251/EC: Dimethylfumarate)2023-11-16
- Absence Declaration ELV (2000/53/EC: Heavy metals)2024-02-15
- Absence Declaration EPA 20 High Priority Substances 20192023-11-16
- Absence Declaration Food Allergens2023-11-16
- Absence Declaration NMP (N-Methylpyrrolidone)2023-11-16
- Absence Declaration Nano Materials2023-11-16
- Absence Declaration Ozone Depleting Chemicals2023-11-16
- Absence Declaration PAH (Polycyclic Aromatic Hydrocarbons)2023-11-16
- Absence Declaration PBT chemicals under TSCA section 6(h)2023-11-16
- Absence Declaration PFAS2024-03-05
- Absence Declaration POPs (Persistent Organic Pollutants)2023-10-27
- Absence Declaration Phthalates (2005/84/EC: DEHP, DBP, BBP,DINP,DIDP, DNOP)2023-11-16
- Absence Declaration Red Phosphorus2023-11-16
- Absence Declaration opBDE (2003/11/EC: Octa- / Pentabromodiphenylether)2023-11-16
- CALIFORNIA PROPOSITION 65 (NDS)2024-01-02
- Conflict minerals declaration (EICC, GeSI)2024-03-21
- Packaging, Packaging Waste and CONEG declaration (94/62/EC)2021-12-06
- REACH Registration Statement2024-03-27
- REACH STATEMENT KOREA2023-11-16
- REACH STATEMENT TURKYE2023-11-16
- RoHS Statement (2011/65/EC: Heavy metals)2024-02-01
- SVHC, REACH Annex XIV and –XVII Statement2024-03-27
- Turkish customs legislation info letter (EK-8 form)2023-11-16
Yellow Card
成形方法
Injection Molding
Injection Molding
自動車OEM
FIAT CHRYSLER, GM
FIAT CHRYSLER, GM
OEM製品規格
FCA-MS50017(MS-DB-41)-CPN4596-(2017-02)
GMW17410P-PA46-GF15
FCA-MS50017(MS-DB-41)-CPN4596-(2017-02)
GMW17410P-PA46-GF15
流動特性
成形収縮率 (流れ方向)
0.5
%
ISO 294-4
成形収縮率 (垂直方向)
1.2
%
ISO 294-4
機械特性
引張弾性率
6100
MPa
ISO 527-1/-2
引張弾性率 (-40℃)
6200
MPa
ISO 527-1/-2
引張弾性率 (100°C)
3100
MPa
ISO 527-1/-2
引張弾性率 (120℃)
3000
MPa
ISO 527-1/-2
引張弾性率 (140℃)
2800
MPa
ISO 527-1/-2
引張弾性率 (150℃)
2700
MPa
ISO 527-1/-2
引張弾性率 (160℃)
2650
MPa
ISO 527-1/-2
引張弾性率 (180℃)
2500
MPa
ISO 527-1/-2
引張弾性率 (200℃)
2350
MPa
ISO 527-1/-2
引張弾性率 (210°C)
2250
MPa
ISO 527-1/-2
引張破断強度
140
MPa
ISO 527-1/-2
引張破断強度 (-40℃)
155
MPa
ISO 527-1/-2
引張破断強度 (100℃)
85
MPa
ISO 527-1/-2
引張破断強度 (120℃)
82
MPa
ISO 527-1/-2
引張破断強度 (140℃)
78
MPa
ISO 527-1/-2
引張破断強度 (150℃)
76
MPa
ISO 527-1/-2
引張破断強度 (160℃)
74
MPa
ISO 527-1/-2
引張破断強度 (180℃)
70
MPa
ISO 527-1/-2
引張破断強度 (200℃)
66
MPa
ISO 527-1/-2
引張破断強度 (210°C)
64
MPa
ISO 527-1/-2
引張破断ひずみ
3.5
%
ISO 527-1/-2
引張破断ひずみ (-40℃)
3
%
ISO 527-1/-2
引張破断ひずみ (120℃)
13
%
ISO 527-1/-2
引張破断ひずみ (140°C)
13
%
ISO 527-1/-2
引張破断ひずみ (150°C)
13
%
ISO 527-1/-2
引張破断ひずみ (160℃)
12
%
ISO 527-1/-2
引張破断ひずみ (180℃)
12
%
ISO 527-1/-2
引張破断ひずみ (200℃)
12
%
ISO 527-1/-2
引張破断ひずみ (210°C)
12
%
ISO 527-1/-2
曲げ弾性率
5800
MPa
ISO 178
曲げ弾性率 (120℃)
2700
MPa
ISO 178
曲げ弾性率 (160℃)
2600
MPa
ISO 178
曲げ強度
235
MPa
ISO 178
曲げ強度 (120℃)
80
MPa
ISO 178
曲げ強度 (160℃)
75
MPa
ISO 178
シャルピー衝撃強さ (23℃)
50
kJ/m²
ISO 179/1eU
シャルピー衝撃強さ (-30℃)
45
kJ/m²
ISO 179/1eU
シャルピー衝撃強さ ノッチ付き (23℃)
6
kJ/m²
ISO 179/1eA
シャルピー衝撃強さ ノッチ付き (-30℃)
6
kJ/m²
ISO 179/1eA
アイゾット衝撃強さ ノッチ付き (23℃)
6
kJ/m²
ISO 180/1A
アイゾット衝撃強さ ノッチ付き (-40℃)
6
kJ/m²
ISO 180/1A
ウエルド強度試験温度 (1)
100
MPa
ISO 527-1/-2
ウエルド歪み試験温度 (1)
2.1
%
ISO 527-1/-2
試験片厚さ
4
mm
ISO 527-1/-2
熱的特性
融点 (10℃/min)
295
°C
ISO 11357-1/-3
ガラス転移温度 (10℃/min)
75
°C
ISO 11357-1/-2
荷重たわみ温度 (1.8MPa)
275
°C
ISO 75-1/-2
荷重たわみ温度 (0.45MPa)
290
°C
ISO 75-1/-2
ビカット軟化温度 (50℃・/ h 50N)
290
°C
ISO 306
線膨張係数 (流れ方向)
0.5
E-4/°C
ISO 11359-1/-2
線膨張係数 (垂直方向)
0.8
E-4/°C
ISO 11359-1/-2
1.5mm厚さでの燃焼性
HB
class
IEC 60695-11-10
追加試験片の厚さ (1.5)
1.5
mm
IEC 60695-11-10
UL認定
Yes
-
-
相対温度インデックス-電気
65
°C
UL746B
RTI−電気 (厚さ(1))
1.5
mm
UL746B
相対温度インデックス-衝撃
65
°C
UL746B
RTI−衝撃 (厚さ(1))
1.5
mm
UL746B
相対温度インデックス-衝撃なし
65
°C
UL746B
RTI−衝撃なし (厚さ(1))
1.5
mm
UL746B
電気特性
体積固有抵抗率
1E12
Ohm*m
IEC 62631-3-1
表面抵抗率
Ohm
IEC 62631-3-2
耐トラッキング指数
400
V
IEC 60112
その他特性
吸水率 (水中)
11.5
%
Sim. to ISO 62
吸水率 水中23℃、24時間
3.2
%
ISO 62
吸湿率 (23℃/50% RH)
3.15
%
Sim. to ISO 62
密度
1290
kg/m³
ISO 1183
材料特性
粘度数
150
cm³/g
ISO 307, 1157, 1628
レオロジー特性(計算)
溶融時の密度
1100
kg/m³
-
溶融時の熱伝導率
0.267
W/(m K)
-
溶融時の比熱
2540
J/(kg K)
-
熱拡散率
9.37E-8
m²/s
-
図表
用途
Bike Body Plugs
産業
Transportation
- •} Cycle-time advantages
- •} Abrasion-resistant
- •} Lower friction at high temperatures
- •} Creep resistance
Chain Tensioners
産業
Transportation
- •} Lightweight solution vs. metal
- •} Abrasion-resistant
- •} Lower friction at high temperatures
- •} Creep resistance
- •} Cycle-time advantages
Door handle actuators
産業
Automotive
- •} Higher torque and durability performance than PPA and PA66
- •} Allows more compact actuator design and also lower weight
- •} Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
Electric brake boosters
産業
Automotive
- •} Higher torque and durability performance than PA66 and POM
- •} Allows more compact actuator design and weight savings
- •} Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
Electric parking brakes
産業
Automotive
- •} Higher torque and durability performance than PA66 and POM
- •} Allows more compact actuator design and weight savings
- •} Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
Mirror actuators
産業
Automotive
- •} Higher torque and durability performance than PPA and PA66
- •} Allows more compact actuator design and also lower weight
- •} Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
Oil Pump Gears (2-wheelers)
産業
Transportation
- •} Lightweight solution vs. metal
- •} Abrasion-resistant
- •} Lower friction at high temperatures
- •} Creep resistance
- •} Cycle-time advantages
Seat actuators
産業
Automotive
- •} Higher torque and durability performance than PPA and PA66
- •} Allows more compact actuator design and also lower weight
- •} Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
Steering wheel adjusters
産業
Automotive
- •} Higher torque and durability performance than PPA and PA66
- •} Allows more compact actuator design and also lower weight
- •} Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
Sunroof actuators
産業
Automotive
- •} Higher torque and durability performance than PPA and PA66
- •} Allows more compact actuator design and also lower weight
- •} Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
Transmission Control Gears
産業
Transportation
- •} Lightweight solution vs. metal
- •} Abrasion-resistant
- •} Lower friction at high temperatures
- •} Creep resistance
- •} Cycle-time advantages
Trunk actuators
産業
Automotive
- •} Higher torque and durability performance than PPA and PA66
- •} Allows more compact actuator design and also lower weight
- •} Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
Variator Roller Cover
産業
Transportation
- •} Abrasion-resistant
- •} Lower friction at high temperatures
- •} Creep resistance
- •} Cycle-time advantages
