3301pa Nylon Jun 2026
Manufacturers and services like JLC3DP and ChanHonTech define its capabilities as follows: Tensile Strength Tensile Modulus ~1,700 MPa Flexural Modulus ~1,500 MPa Min. Wall Thickness Max Build Size 350 x 350 x 400 mm Primary Applications
: With a powder melting point of 184°C , it maintains its structural integrity in high-temperature environments. It features a heat deflection temperature (HDT) of 147°C at 0.45 MPa.
is a high-performance, general-purpose Polyamide (Nylon) resin. Engineered for excellent melt stability and surface finish, this grade is ideal for thin-wall injection molding and high-speed extrusion applications. It offers a balanced combination of mechanical strength, heat resistance, and chemical inertness.
If you are planning an upcoming manufacturing project, let me know: What is the of the part?
: For industrial parts exposed to harsh environments, chemical stability is paramount. 3301PA demonstrates "good corrosion resistance to common chemicals such as engine oil" . This means parts printed with it will have reduced risk of degradation when exposed to lubricants, fuels, and other solvents, ensuring stable operation in demanding applications like automotive components. 3301pa nylon
(like vibratory tumbling or dyeing) available for this material. Provide a design checklist for complex snap-fit joints using 3301PA.
Expect a slightly grainy finish typical of the SLS powder-bed fusion process.
The mechanical performance of 3301PA Nylon makes it suitable for load-bearing functional parts. Here is a breakdown of its key metrics:
Due to its wear-resistant surface, 3301PA is ideal for custom factory jigs, fixtures, robotic grippers, and gear assemblies that must handle thousands of stress cycles without deformation. Post-Processing & Finishing If you are planning an upcoming manufacturing project,
: It can withstand significant temperatures, with a heat deflection temperature (HDT) of approximately 140°C to 147°C at 0.45 MPa. Some sources indicate it can handle environments up to 179°C without warping.
Under-the-hood components must endure intense heat and chemical exposure. 3301PA Nylon is frequently used for: Engine covers and intake manifolds Fuel system connectors Gear shifter housings Cooling system brackets Aerospace and Defense
Thanks to its rugged properties, 3301PA Nylon replaces heavier, more expensive metal alloys across several major industries. 1. Automotive and Aerospace
Understanding the raw engineering data is crucial when selecting 3301PA Nylon for manufacturing. The material is typically processed as a white thermoplastic powder, yielding a slightly grainy but incredibly durable surface texture upon completion. 3301PA Nylon - JLC3DP 3301PA Nylon replaces heavier
What are you planning to manufacture with it?
offers superior toughness and better resistance to deformation.
: Recommended to be greater than 1.0mm for structural integrity. Tolerances : Typically (within 100mm) or (above 100mm).