1.Wear resistance with good stiffness
2.High toughness
3.Heat resistance
4.Low difficulty of printing
5.Low wrapping and good thermal stability
6.Easy to print
7.Eco-friendly
8.Corrosion resistance, oil resistance, excellent mechanical properties
Dimensions:
Weight of each roll:
Color Options
PA Filaments generally refer to 3D Printing Filaments of nylon materials. PA6 Nylon FDM printing Filaments are a kind of thermoplastic polymer, one of the most popular nylons in the world, with a melting temperature of 220℃ and applicable to most of traditional processing. It is widely used in most of industries due to its good properties and cost performance. Different features may exist in different brands and models of PA Filaments, so users are advised to comprehensively consider based on specific requirements and printer models when choose to use it.
Features
PA6 nylon has high tensile strength, bending strength and impact strength, and can withstand large loads.
PA6 nylon has good tolerance to most chemical substances, including acids, alkali, salts, etc.
PA6 nylon has high wear resistance and can maintain its performance in long-term use.
PA6 nylon can be processed by cutting, drilling, grinding and other ways to facilitate subsequent processing and assembly.
PA6 nylon can be selected in a variety of colors to meet different needs.
Application field
In general, PA6 nylon is an engineering plastic with excellent properties and has a wide range of application prospects. PA6 nylon has a wide range of applications, mainly including the following aspect 1. Automotive manufacturing: PA6 nylon can be used to manufacture automotive parts, such as engine covers, bumpers, dashboards, etc. 2. Electronic and electrical: PA6 nylon can be used to manufacture electronic and electrical parts, such as plugs, sockets, switches, etc. 3. Aerospace: PA6 nylon can be used to manufacture aerospace parts, such as aircraft engine parts, airline seats, etc. 4. Medical devices: PA6 nylon can be used to manufacture medical devices, such as surgical instruments, prosthetics, etc. 5. Industrial products: PA6 nylon can be used to manufacture industrial products, such as gears, chains, conveyor belts, etc.
Mechanical Properties
Property
Testing Method
Testing Condition
Injection Molding TypicalValue
3D Printing X-Y AxisTypical Value
3D Printing Z Axis Typical Value
Unit
Tensile Strength
ISO 527
50mm/min
65.1
59±4
27±4
MPa
Elongation at Break
ISO 527
50mm/min
3.6
2±1
1.1±0.2
%
Tensile Modulus
ISO 527
50mm/min
2592.1
2207±200
1863.7±200
MPa
Flexural Strength
ISO 178
2mm/min
110.6
108.4±5
50.2±5
MPa
Flexural Modulus
ISO 178
2mm/min
2560
2335±200
1673.4±200
MPa
Charpy Impact Strength
ISO 179
23℃
37.2
10.4±2
3.3±1
KJ/㎡
Izod Impact Strength
ISO 180
23℃
33.1
8.6±2
2.1±1
KJ/㎡
Physical Properties
Property
Testing Method
Testing Condition
Typical Value
Unit
Density
ISO 1183
Immersion
1.13
g/cm3
Melt Flow index(MFR)
ISO 1133
275℃/2.16kg
8-18
g/10 min
Moisture Absorption
Property
Testing Method
Testing Condition
Injection Molding Typical Value
3D Printing Typical Value
Unit
Moisture Absorption
ISO 62
50%RH*23℃
2.5
2.7
%
Chemical Properties
Property
Testing Result
Weak Acid Resistance
Not Resistant
Strong Acid Resistance
Not Resistant
Weak Base Resistance
Lightly Resistant
Strong Base Resistance
Not Resistant
Organic Solution Resistance
Not Resistant
Oil and Grease Resistance
Resistant
Thermal Properties
Property
Testing Method
Testing Condition
Injection Molding Typical Value
3D Printing X-Y AxisTypical Value
3D Printing Z AxisTypical Value
Unit
Glass Transition Temperature
DSC
10℃/min
53.7
℃
Crystallization temperature
DSC
10℃/min
179.8
℃
Melting Point
DSC
10℃/min
221.9
℃
Distortion Temperature
TGA
20℃/min
>370
℃
Heat Distortion Temperature
ISO 75
0.45MPa
72.8
69.7
57.4
℃
Heat Distortion Temperature
ISO 75
1.8MPa
62.5
59.2
50.6
℃
Vicat Softening Temperature
ISO 306
50℃/10N
N/A
℃
Recommended 3D Printing Parameters *Based on 0.4 mm nozzle. Printing conditions may vary with different nozzle diameters.
Printing Temperature
250-280(℃)
Bed Temperature
80-100(℃)
Wall Layers
2 Layers
Top and Bottom Layers
4 Layers
Infill
100%
Ambient Temperature
25℃
Cooling Fan
0-10%
Printing Speed
30-50(mm/s)
Nozzle Diameter
0.4 mm
3D Printing Actual Parameters *All specimens must be left at room temperature for 24 hours before testing. The parameters are based on the Bambulab P1S 3D printer.
