This robust Nylon stock sheet provides superior electrical insulation and mechanical strength. Its precise dimensions and high-performance material make it ideal for demanding electrical and lighting component fabrication.
| Standard | ASME B18 |
| Material | Nylon |
| Finish | Galvanized |
| Grade | N/A |
| Thickness | 0.977" |
| Length | 26" |
| Width | 35" |
Manufactured under strict quality controls, this Nylon stock sheet boasts a nominal thickness of 0.977 inches, a length of 26 inches, and a width of 35 inches. Engineered from premium Nylon, it exhibits excellent dielectric strength, superior abrasion resistance, and good impact toughness. Its inherent flame retardancy and resistance to moisture make it a reliable choice for insulating components, protective enclosures, and structural elements within electrical and lighting systems, ensuring safety and longevity.
This component strictly adheres to the tolerances, material specifications, and quality benchmarks set by the world's leading industrial manufacturers.
1. Ensure the nylon stock sheet is cut to the required dimensions using appropriate cutting tools designed for plastics. 2. Prepare the mating surfaces for bonding or mechanical fastening, ensuring they are clean and free of debris. 3. Securely fasten or bond the nylon component into its intended electrical or lighting assembly, following established engineering practices for the specific application.
| Standard System | Designation |
|---|---|
| ISO Equivalent | ISO 9001:2015 Mfg |
| DIN Equivalent | Industry Standard |
| Primary Standard | ASME B18 |
| Tensile Strength | Standard Commercial Spec |
| Yield Strength | Standard Commercial Spec |
| Hardness | Varies by specific batch |
| Size / Type | Est. Weight (lbs/100) | Shipping Weight (kg) |
|---|---|---|
| Standard | Varies by dimension | Contact Sales |
| Environment | Rating |
|---|---|
| Indoor / Dry | Excellent |
| Outdoor / Exposed | Excellent |
| Marine / Saltwater | Not Recommended |
| Chemical / Acidic | Not Recommended |
| ❌ Mistake | ✅ Correct Approach |
|---|---|
| Using standard cutting tools not designed for plastics, leading to chipping or uneven edges. | Utilize carbide-tipped blades or specialized router bits designed for machining nylon to achieve clean, precise cuts. |
| Overheating the nylon during machining, causing melting or deformation. | Employ appropriate cooling methods such as air blasts or cutting fluids, and maintain moderate cutting speeds to prevent excessive heat buildup. |
A: This Nylon Stock Sheet is manufactured from Nylon.
A: Electrical insulators and bushings, Light fixture housings and components, Protective barriers and shields for electrical equipment.
Conversion factor: 1 ft-lb ≈ 1.356 Nm
| Status | Mating Component | Standard | Torque Spec | Engineering Notes |
|---|---|---|---|---|
| No verified compatibility data found for this component. | ||||