Materials

IEMAI 3D Printing Filaments

IEMAI 3D Printing Materials allows you to have an excellent printing experience; with our guidance in pre/pro-processing, you will obtain a detailed and good-surface finished print prototype. 

Our 3D Printing Materials are independently developed and using our IEMAI 3D Printers, the filament will be able to outperform well and provide you with an amazing experience and performance for your parts or prototypes.

High-Performance Materials

IEMAI 3D High Performance 3D Printing Materials allow you to print industrial-grade parts and have superior-performance under ultra-lightweight conditions. These materials have excellent mechanical, thermal, electrical properties and also excellent biocompatibility compare to the ordinary polymer. For example, IEMAI 3D High-Performance materials PEEK  has been used in medical field such as surgical guide-plate and prothesis.

IEMAI 3D High-Performance Materials

The figure on the right shows a set of samples of the same designed printed by IEMAI 3D High-Temperature Printer using different high-performance materials .

If you need more information, feel free to contact us.

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PEEK is considered as one of the world’s highest performing functional materials. It has excellent biocompatibility, chemical resistance, mechanical properties, and thermal properties. PEEK is a semicrystalline thermoplastic with excellent mechanical and chemical resistance properties that are retained to high temperatures. PEEK has an excellent biocompatibility and close to bone modulus, which allow it to become a favorable material for implantation.

It is often used in demanding applications such as aerospace, automotive, chemical, and medical industries.

PEKK is a semi crystalline thermoplastic from the PAEK family, commonly used in extreme operating environments. It has similar performance as PEEK which has excellent mechanical and chemical resistance properties that are retained to high temperatures, but relatively easier to print than PEEK due to its lower rate and degree of crystallinty.

It is often used in demanding applications such as aerospace, automotive and chemical industries.

CF-PEEK is a composite polymer, black in colour. It has excellent biocompatibility, chemical resistance, mechanical properties, and thermal properties. 

It is considered as one of the world’s highest performing functional materials, which allow it to use in harsh environment. CF-PEEK is produced using 30% carbon fiber content and still having all the advantages of PEEK. At the same time, it is lighter than PEEK, having better interlayer adhesion and better temperature resistance.

At present, it often used in demanding applications such as aerospace, automotive, and electrical industries.

PEI 9085 is a high performance material that have excellent thermal properties, exceptional dimensional stability, good chemical resistance, and inherent flame retardancy.

PEI 9085 has natural (unpigmented) colors  and it is widely used in application such as medical, electrical/electronic, automotive, and aerospace industries.

PEI 1010 is an amorphous polymer that have excellent thermal properties, exceptional dimensional stability, good chemical resistance, and inherent flame retardancy. As the glass transition temperature can reach up to 217°C, which allows PEI 1010 to print parts with excellent property.

PEI 1010 has a translucent colour of amber and it is widely used in application such as medical, electrical/electronic, automotive, and aerospace industries.

PPSU is a type of high temperature aromatic sulfone polymer. For a long time, it has been considered as one of the most excellent composite polymers in plastic field. PPSU can be used under a high temperature of 180˚C, PPSU has an excellent hydrolysis resistance and able to resist common acid and bases over a broad temperature range.

PPSU also offers superior high heat deflection temperature, able to withstand repeated steam sterilization, good electrical properties, and resistance to environmental stress cracking.

Since PPSU has excellent resistance in heat and chemical, therefore which is suitable to demanding applications such as aerospace, automotive and chemical industries.

PA filament is based on a copolymer of Nylon 6 and Nylon 6/6. It is a semi-crystalline thermoplastic with low density but with high thermal stability.The filament has excellent strength, toughness, and heat resistance of up to 180˚C. 

PA is commonly applied in industry as it has good tenacity and cushioning at low temeprature and high impact resistance.

CF-PA is a carbon fiber reinforced PA6 filament. The carbon fiber reinforcement provides significantly improved stiffness, strength, and heat resistance with outstanding layer adhesion.Under high temeprature up to 120˚C, it stil able to maintain the same mechanical properties.

CF-PA is lighter than PA and maintain the same advantages.

GF-PA is a glass fiber reinforced Nylon 6 filament. With the same specification as the orginal PA, the material also exhibits more excellent thermal and mechanical properties without sacrificing the layer adhesion. IEMAI 3D has used it in various cases such as  boxes and structual component of unmanned aircraft.

PC is a type of high molecular polymer containing carbonate groups in the molecular chain. PC is an excellent high temperature 3D printing material, which contain excellent mechanical property and heat resistance . IEMAI 3D’s PC can use for printing functional prototypes and parts, which has excellent details and surface quality and make it the ideal choice for a wide range of engineering applications

It also has good wear resistance, good self-lubrication, high toughness, good melt fluidity, precise printing accuracy, smooth appearance, and natural gloss. As most of the PC has  high shrinkage, IEMAI 3D manage to reduce its shrinkage and allow it to print easily.

CF-PC is reinforced with the carbon fiber, that features a very high strength to weight ratio. The thermal resistance of is one of the highest among the 3D printing filaments and also having excellent mechanical properties. It is the ideal choice for a wide range of engineering application

ASA is an alternative to ABS with an improved weather resistance. Its UV resistance and excellent mechanical properties make it the perfect choice for real life applications. ASA has lower glass transition temperature than ABS. 

It is  commonly used for outdoor appliance or outside parts of vehicles.

Polylactic Acid (PLA) is a plastic extract from starch (commonly from corn) which is low environmental impact. It is a derivative of starch, green and renewable, a biodegradable material (degrade by itself in the soil), which is environmentally friendly.

It is commonly used for decoration and asethetic purposes. This material is cheap and easy to print thus it is the most suitable filament for beignners to use for their very first 3D printes.

CF-PLA is an improved carbon fiber reinforced filament. Compare to the normal PLA, it is an ideal choice for user that wants a part with high modulus, excellent surface quality, dimension stability and lightweight. 

Acrylonitrile-Butadiene-Styrene (ABS) is a thermoplastic polymer material which have high strength, high rigidity and easy to process. Due to its strong physical characteristic, thermal resistance, and chemical resistance, it is commonly used as the plastic shell for apparatus. However, ABS will have its mechanical strength weaker and discoloration after exposed to weather conditions (UV light, oxygen, moisture, heat) because Polybutadiene stimulate the oxidation of Polystyrene. UV stabilizer can be introduced to improve this.

ABS is widely used in mechanical, automotive, electronic, textile, and construction industries, which is a versatile engineering thermoplastic.

CF-ABS is an improved carbon fiber reinforced filament. Compare to the normal ABS, it is an ideal choice for user that wants a part with high modulus, excellent surface quality, dimension stability and lightweight. Compare with the normal ABS, CF-ABS reduces the coefficient of thermal expansion, this reduces the wraping happens when printing and higer power distribution of mechanical stress.

 

Polypropylene (PP) is a durable, high toughness and exceptional fatigue resistance. It has good resistance in chemical, thermal and electrical. It is one of the commonly used plastic on earth such as electrical components and prototyping.

It is commonly applied in field such as functional prototypes, guides, sleeves, and protective cases.

Thermoplastic polyurethane (TPU) is a soft material which contain both feature of rubber and plastic. It is a semi-flexible and chemical resistance filament with strong interlayer bonding. It also has good corrosion resistance to industrials oils and chemicals.

It is commonly applied in field such as functional prototypes, guides, sleeves, and protective cases.

Polyethylene Terephthalate Glycol-modified (PETG) is a tough and durable materials and it is easy to use. The strength of it allow to be a suitable material for food packaging, the chemical non-reactive characteristic allow it to be the most valuable material in medical field, normally used for orthopedic and prosthetic device.

PETG is a very waterproof material which make it become an excellent choice for outdoor activity. It also has excellent chemical resistance, which can be well-used in both acidic and alkaline environment, PETG also have strong impact resistance, which make it be the substitute material for PMMA and PC.

Why Choose Our Filament

We provide the 3D  Printing Filament in the most afforable price. 

All 3D  Printing Filament is developed by ourself and have obtained CE and RoHS Certification.

We also partner with different material companies to produce the higest quality materials for the users.

We provide the specification for each materials, thus you will not take much effort to figure out what is the most suitable parameters for that certain materials and start your print soon.

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