Jiangsu Profile

Product List
1846. Customizable High Quality PTFE Wheel
[Jul 09, 2025]

Product Performance Product performance: Test project unit indicators specific gravity g/cm3 2.10-2.30 The tensile strength Mpa 30-40 Elongation at break % ≥150 Withstand ...
1847. Industrial Machinery High Quality PTFE Wheels
[Jul 09, 2025]

Product Performance Product performance: Test project unit indicators specific gravity g/cm3 2.10-2.30 The tensile strength Mpa 30-40 Elongation at break % ≥150 Withstand ...
1848. Corrosion-Proof High Quality PTFE Wheels
[Jul 09, 2025]

Product Performance Product performance: Test project unit indicators specific gravity g/cm3 2.10-2.30 The tensile strength Mpa 30-40 Elongation at break % ≥150 Withstand ...
1849. Smooth and Low-Friction Applications PTFE Wheel
[Jul 09, 2025]

Product Performance Product performance: Test project unit indicators specific gravity g/cm3 2.10-2.30 The tensile strength Mpa 30-40 Elongation at break % ≥150 Withstand ...
1850. Turbocharger Gtx55 Ball Bearing/Journal Bearing Different a/R Billet Wheel Performance Turbo
[Jul 09, 2025]

Product Description GEN II AERODYNAMICS FEATURE INCREASED HORSEPOWER RANGE NEW FULLY-MACHINED SPEED SENSOR PORT IMPROVED PORTED SHROUD DESIGN FOR SURGE RESISTANCE LIGHT WEIGHT BILLET BACKPLATE SFI SUPER CORE AND ...
Company: CME AUTO Co., Ltd.
1851. Electrically Insulating High Performance PTFE Wheels
[Jun 27, 2025]

Product Performance Product performance: Test project unit indicators specific gravity g/cm3 2.10-2.30 The tensile strength Mpa 30-40 Elongation at break % ≥150 Withstand ...
1852. Wide-Temperature-Range High Quality PTFE Wheels
[Jun 27, 2025]

Product Performance Product performance: Test project unit indicators specific gravity g/cm3 2.10-2.30 The tensile strength Mpa 30-40 Elongation at break % ≥150 Withstand ...
1853. Heavy-Duty PTFE Wheels with High Load Capacity and Durability
[Jun 27, 2025]

Product Performance Product performance: Test project unit indicators specific gravity g/cm3 2.10-2.30 The tensile strength Mpa 30-40 Elongation at break % ≥150 Withstand ...
1854. Low-Coefficient-of-Friction PTFE Wheels for Precision Machinery
[Jun 27, 2025]

Product Performance Product performance: Test project unit indicators specific gravity g/cm3 2.10-2.30 The tensile strength Mpa 30-40 Elongation at break % ≥150 Withstand ...
1855. Industrial-Grade PTFE Wheels with Exceptional Wear Resistance
[Jun 27, 2025]

Product Performance Product performance: Test project unit indicators specific gravity g/cm3 2.10-2.30 The tensile strength Mpa 30-40 Elongation at break % ≥150 Withstand ...
1856. Non-Marring Nylon Wheels with Precision Bearings for Smooth Rolling
[Jun 26, 2025]

Advantages Advantages: PA6 and PA 66 Nylon Bar These Polyamides, commonly referred to as Nylon and available in Sheets, Rod and Tube and are distinguished by different types. The most common engineering Nylons are ...
1857. Custom-Sized High Quality Plastic Products Nylon Wheels
[Jun 26, 2025]

Advantages Advantages: PA6 and PA 66 Nylon Bar These Polyamides, commonly referred to as Nylon and available in Sheets, Rod and Tube and are distinguished by different types. The most common engineering Nylons are ...
1858. Enhanced Stability and Durability Nylon Wheels
[Jun 26, 2025]

Advantages Advantages: PA6 and PA 66 Nylon Bar These Polyamides, commonly referred to as Nylon and available in Sheets, Rod and Tube and are distinguished by different types. The most common engineering Nylons are ...
1859. Heat-Resistant High-Temperature Applications Nylon Wheels
[Jun 26, 2025]

Advantages Advantages: PA6 and PA 66 Nylon Bar These Polyamides, commonly referred to as Nylon and available in Sheets, Rod and Tube and are distinguished by different types. The most common engineering Nylons are ...
1860. Corrosion-Resistant High Quality Nylon Wheels
[Jun 26, 2025]

Advantages Advantages: PA6 and PA 66 Nylon Bar These Polyamides, commonly referred to as Nylon and available in Sheets, Rod and Tube and are distinguished by different types. The most common engineering Nylons are ...
