You are here: Home » Products » 3D Printer Filament » PLA » PLA+ Matte 3D Printer Filament

PLA+ Matte 3D Printer Filament

Aliz's new PLA+ Matte 3D Printing Filament is a cost-effective matte PLA Filament that is environmentally friendly and easy to print. Compared to ABS, Matte PLA+ has higher rigidity and PC-like strength. While inheriting the good printability of PLA, it presents a special matte and frosted texture on the surface of the printed models, and the lamination has been significantly improved, which can be directly used for decorative or artistic final parts.

Diameter: 1.75mm/2.85mm

Weight of each roll:1kg/2.5kg

Color:	red green blue yellow white purple ice blue pink orange grey black brown dark brown dark green desert yellow dark red dark blue
Availability:



Inquire Add to Basket

Features

Matte Texture

Say goodbye to glossy Prints. PLA+ Matte Filament offers a luxurious matte finish, adding a touch of sophistication to your creations.
Enhanced Strength

Engineered with advanced additives, PLA+ Matte boasts improved strength and durability compared to standard PLA, ensuring your prints stand the test of time.
Excellent Printing Quality

Experience unparalleled print quality with PLA+ Matte. Its precise formulation results in smooth, consistent extrusion, minimal stringing, and exceptional layer adhesion, producing flawless prints with every iteration.
Low Warping

Tired of dealing with warping issues? PLA+ Matte Filament minimizes warping, thanks to its balanced composition and superior printing properties, allowing you to achieve accurate and warp-free prints effortlessly.
Wide Compatibility

Whether you're using a Desktop or Industrial-grade 3D Printer, PLA+ Matte Filament is compatible with a wide range of Printers, ensuring accessibility and versatility for creators of all levels.
Environmentally Friendly

Like traditional PLA, PLA+ Matte is derived from renewable resources such as cornstarch or sugarcane, making it an eco-friendly choice for sustainable manufacturing practices.
Easy to Work With

With its excellent flow characteristics and low Printing temperature, PLA+ Matte filament is easy to work with, making it ideal for both beginners and experienced 3D Printing enthusiasts alike.

Advantages

Premium Matte Finish

One of the key advantages of PLA+ Matte Filament is its luxurious matte finish, which adds a touch of elegance and sophistication to your prints. Unlike glossy finishes, matte surfaces reduce glare and fingerprint visibility, enhancing the overall aesthetic appeal.
Enhanced Strength and Durability

PLA+ Matte Filament is engineered with advanced additives that improve its strength and durability compared to standard PLA Filament. This makes it ideal for producing sturdy prototypes, functional parts, and intricate models that require added resilience.
Improved Printability

With its precise formulation and superior printing properties, PLA+ Matte Filament offers excellent printability. It exhibits minimal stringing, consistent extrusion, and superb layer adhesion, resulting in high-quality prints with intricate details and smooth surfaces.
Reduced Warping

PLA+ Matte Filament minimizes warping during the printing process, thanks to its balanced composition and optimized printing temperature. This helps prevent issues such as curling or lifting of the printed layers, resulting in more accurate and dimensionally stable prints.
Wide Compatibility

PLA+ Matte Filament is compatible with a wide range of 3D Printers, including both Desktop and Industrial-grade models. Its compatibility ensures that users can easily incorporate it into their existing printing setups without the need for specialized equipment or modifications.
Environmental Sustainability

Like traditional PLA Filament, PLA+ Matte is derived from renewable resources such as cornstarch or sugarcane, making it an environmentally friendly choice for 3D Printing. Its biodegradable nature reduces environmental impact and supports sustainable manufacturing practices.
Ease of Use

PLA+ Matte Filament is easy to work with, making it suitable for both beginners and experienced 3D Printing enthusiasts. It has excellent flow characteristics and requires lower printing temperatures compared to some other Filaments, resulting in smoother printing processes and reduced risk of nozzle clogging.

Applications

Versatile Applications: PLA+ matte filaments can be used to produce matte and frosted texture Prints with impressive matte results. From prototyping to artistic endeavors, PLA+ Matte filament is suitable for a diverse range of applications, including architectural models, functional prototypes, artistic sculptures, and more. Its versatility allows users to explore creative possibilities and bring their ideas to life with precision and finesse.

Artistic Endeavors

We have an excellent technical team, which can be designed according to customers requirements.

Architectural Models

We have an excellent technical team

Functional Prototypes

We have an excellent technical team

Overall, PLA+ Matte Filament offers a combination of aesthetic appeal, strength, printability, and environmental sustainability, making it an excellent choice for various 3D printing projects and applications. Experience the next level of 3D Printing innovation with PLA+ Matte Filament and elevate your creations to new heights of excellence.

Mechanical Properties

Property	Testing Method	Testing Condition	Injection Molding Typical Value	3D Printing X-Y Axis Typical Value	3D Printing Z Axis Typical Value	Unit
Tensile Strength	ISO 527	50mm/min	54.8	37.5±4	12.3±2	MPa
Elongation at Break	ISO 527	50mm/min	5.7	3.6±1	1.1±0.2	%
Tensile Modulus	ISO 527	50mm/min	2515.7	2469±100	2142.7±100	MPa
Flexural Strength	ISO 178	2mm/min	78.4	58.9±4	19.4±2	MPa
Flexural Modulus	ISO 178	2mm/min	3766.7	2876.7±100	2082.5±100	MPa
Charpy Impact Strength	ISO 179	23℃	59.3	23.1±2	2.6±1	KJ/㎡
Izod Impact Strength	ISO 180	23℃	52.8	18.4±2	2.2±1	KJ/㎡

Physical Properties

Property	Testing Method	Testing Condition	Typical Value	Unit
Density	ISO 1183	Immersion	1.32	g/cm³
Melt Flow index(MFR)	ISO 1133	210℃/2.16kg	2-7	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℃	0.4	0.42	%

Chemical Properties

Property	Testing Result
Weak Acid Resistance	Not Resistant
Strong Acid Resistance	Not Resistant
Weak Base Resistance	Not Resistant
Strong Base Resistance	Not Resistant
Organic Solution Resistance	Not Resistant

Thermal Properties

Property	Testing Method	Testing Condition	Injection Molding Typical Value	3D Printing X-Y Axis Typical Value	3D Printing Z Axis Typical Value	Unit
Glass Transition Temperature	DSC	10℃/min	65.4			℃
Crystallization temperature	DSC	10℃/min	95.4			℃
Melting Point	DSC	10℃/min	150			℃
Distortion Temperature	TGA	20℃/min	N/A			℃
Heat Distortion Temperature	ISO 75	0.45MPa	57	55.5	56.9	℃
Heat Distortion Temperature	ISO 75	1.8MPa	55.9	55	53.8	℃
Vicat Softening Temperature	ISO 306	50℃/10N	62.8	61.1	61.8	℃

Recommended 3D Printing Parameters
*Based on 0.4 mm nozzle. Printing conditions may vary with different nozzle diameters.

Printing Temperature	210-230(℃)
Bed Temperature	50-60(℃)
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