3D Printing Materials Filament and 3d Printer Filament Suppliers – Miami – Florida, USA – Meltink3d, Filaments PLA/PHA, PLA, ABS, Quality Premium,Product uniform smooth,Infinite colors custom, Biodegradable 100%, Compatibility all printers, Warranty a satisfactory print, Made in USA High quality standards

3D Printing Materials Filament

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Our PLA /PHA is available in a huge variety of colors! Colors is what we know and therefore we select those colors that work well for 3d printing filaments. We also do a color matching service for those that are looking for a very specific color.

3D Printing Materials Filament

Meltink is a family owned 3D printing filament US manufacturer company, located in Miami, Fl., aspiring to provide you the finest quality materials to you will be able to convert any piece you print in an unique artist creation.

3D Printing Materials Filament

Finally after a long process of researching, testing and processing resins, we are vey satisfied to announce were able to establish our brand to release the highest 3D printing filament quality.

3D Printing Materials Filament

At the end of 2014, we started researching, testing, and processing resins as an adventure of make a new plastic product, the 3d printing filament, our first results were no bad and immediately decided change experimentation for a serious project. Having worked in the plastic extruding industry field over 20 years, we also have developed our own filament extruding line.

3D Printing Materials Filament

Finally, at the summer of 2015, we are able to establish our brand to release the highest standards of quality filaments. In three months we shipped one thousands national and international samples and we obtained good feedback of our quality.

3D Printing Materials Filament

We seek to ensure supply you with accurate products to improving your 3D printing experience with our support. Our team is focused in testing each material that we provide you. As you we are manufacturing we know you need to be sure that your machine will run full working day, then you will have more time to developed your next project.

3D Printing Materials Filament

Our goal is to provide the greatest 3D printing filament and services quality for you to make your 3d printing performance the best experience. Making use of our more than 20 years of proficiency skills in the plastic industry we can promise you, our materials achieves overcome the most demanding standards. We aim to have satisfied customers and are eager to help and service them.

If your child play with this espectacular toy, would you like it to break easily ?

First of all, you should not have to pay more for PLA/PHA, if you do not need specific properties of this blend. If you print only prototype objects that will not been under higher or lower temperature conditions, under weight or strength, you do not need to pay more, you can go directly and print with PLA 3D filament.

The problem starts when you need to print functional and durable objects that need to have certain temperature tolerance, tension, or strength resistance. At this moment you have to decide if you will pay more and go through the biodegradable way or if you save money and print with petroleum base plastic.

Secondly, if you are a 3D printer professional and your 3D printer works with ABS, you could save money printing with ABS. You do not have to pay more for your creation to be long lasting. Otherwise, if you are an amateur in the 3D printing field, the cost of failures printer is more with this material. ABS filament tends to warp so you need more experience to print with it. Also, you have to take certain precautions with ABS printing odor; printer must be in a ventilated area and being careful with external temperature that could affect your ABS print. If your 3D printer is closed your results will be better. Learning to print with ABS is a big challenge. If you can manage time consuming cost, sense of frustration and recycle on a property way all your experiment and bad printers, definitely “will save you money.”

So if your 3D printer only prints PLA, you only have a way to print functional and durable objects: you have to pay the difference between durable or just disposable objects. Quality and durability have an extra cost. You have to pay a little extra and buy PLA/PHA 3D printing filament. Enjoy printing because it is easier to print with. PHA acts as and impact modifier, making PLA stronger so your creation will last.

Why PLA/PHA 3D printing filament is more expensive? The discovery of the first biodegradable plastic was in 1920; it was until the 90’s oil crisis, that researches intensified working on it. Bio plastics market is still relatively young and small, and PHA has associated a longer chemistry production process than PLA.

Manufacturing ABS and PLA filaments have more or less a similar cost. Until now PHA resin cost is higher. While we have being waiting the industry to develop mass process to reduce this cost.

Even thought we have good news for you, our PLA/PHA 3D printing filament is cheaper than others that you can find in a 3D printing market and also have more quantity. Do your own comparison!

What is 3D printing filament?
While different types of 3D printing materials exist, the most common on the market for consumers today is known as 3D printing filament. Thread-like in appearance (though much thicker), 3D printing filament is heated and extruded through a moving nozzle. The material is layered vertically until a 3D object with height, width, and depth is formed. From standard plastic to simulated metal or wood, there is a variety of 3D printing filaments to choose from.

Popular 3D printing filaments on the market today
Of the many filaments available, certain materials are used more commonly than others. Today we’ll be looking more closely at four of the most commonly used printing filaments: ABS, PLA, HIPS, and PVA.

ABS and PLA are used for a variety of 3D printed objects, are available in a wide range of colors, and are most often used for their versatile material properties, ease of use, and limited printing difficulty. While PLA and ABS share some overlap in characteristics, they differ. ABS is extremely durable, used for outdoor furniture, toys, consumer products, and other high impact applications. PLA is fairly strong, but may be more brittle depending on the object’s geometry. PLA is also easier to print with, as it does not require a heated build platform as compared to ABS

ABS (Acrylonitrile Butadiene Styrene)
While ABS is stronger and harder than PLA, it requires a higher melting point and consistent temperature distribution along the geometry of an object. As a result, a heated build platform is used to prevent uneven shrinkage, layer distortion, or warping. ABS is petroleum based & emits fumes during printing, so an enclosed build area or proper ventilation is required. While it has its 3D printing nuances, ABS is an extremely durable, reliable, and sturdy material used across multiple industries. Its tough, glossy (with appropriate finishing) surface also provides a longer service life for parts. ABS is however sensitive to prolonged exposure to sunlight, which can degrade its characteristics over time.

PLA (Polylactic Acid)
PLA is derived from cornstarch, sugar cane, and tapioca root, making it a bio-degradable plastic that emits a sweet popcorn-like aroma when heated. It doesn’t require excessive ventilation or an enclosed build area, though there’s no harm in using either of those to limit any fumes. While it prints at lower temperatures compared to ABS, it’s also generally less finicky and does not require a heated build plate. Somewhat shiny and smooth in appearance, PLA offers minimal flexibility (depending on the object’s geometry) but is also more brittle than ABS. While ABS is robust and hard, PLA can offer smoother layering and better handling of details

Exciting times for 3D printing filament development
With so many filaments ready at your disposal, choosing a starting point may seem daunting. Start with basic prints using ABS or PLA (depending on your printer) and don’t be afraid of trial and error with different manufacturers. In due time, you’ll be able to recognize and understand the behaviors of different filaments. Even ABS or PLA from different manufacturers will feature various performance differences due to the manufacturing process, material content, and even the pigment used for color itself. For example, red PLA from Colorfabb prints between 190-210°C; a similar red PLA from Makerbot may print better at 220°C. Specialty filaments that contain various substances such as metallic powder, wood grains, and UV sensitive particles may require additional experimentation with print speeds and extrusion rates.
A good technique for exploring the parameters of different filaments is through the use of print “calibration shapes”. One example of these is the 3D Printer Test Kit from 3D Kitbash. Make sure to record your results, including all successes and errors so you can refer back to them.

We print mechanical parts with some of these materials every day and know them quite well. Due to time constraints, however, we are not able to test every material extensively. Those we are not highly familiar with are noted in the Remarks column, and “5-star” ratings have been reserved for the materials we know best.
The Zortrax™ v2 hot end should be used for all materials except those that are ABS-based.
The shim supplied with your Z-Temp™ should be used with most PLA materials (PolyMax being an exception). If you don’t use the shim, you may experience feed stepper clicking on the first layer due to back-pressure, and/or the layers will not be where the z-code expects them to be (vertically speaking), resulting in problems.
We use the Z-ABS™ slicing profile almost exclusively. It provides more layer thickness options than other profiles, and we have not seen significant differences in printing speed, retraction etc. – not there aren’t any, but we haven’t noticed. Also, the nominal extrusion temperature of Z-ABS has remained more constant at 275ºC than other profiles, which seem to change from Z-Suite version to version. This is why most of the temperatures listed end in “5”, since Z-Temp can only step in increments of 10º. If you really need a temperature multiple of 10 degrees you can use a profile, like Z-HIPS, whose nominal temp is 260º under Z-Suite 1.3.x.
We print with dual fans blowing on the print (printable dual fan mount here), and typically use a 80-100% manual fan setting for PLA. Be aware, however, that when the fans first start at the end of raft printing, the extruder temperature can drop as much as 10ºC and can take as long as five minutes to recover to the set temperature. When using materials with a narrow usable temperature range this can cause extrusion failure. The “Auto” fan setting in Z-Suite actually results in higher airflow levels than 100% manual fan, and should generally not be used for PLA.
We use layer thicknesses of 190 and 290µ in our testing.
Material color can have a surprisingly large effect on results; we hypothesize that it may be related to differences in absorption of IR (heat) radiation inside the extruder. An example is Octave PLA, where we’ve found that gray and black are consistently wonderful and green works fine, but we had trouble getting white to adhere to itself. Others are EasyWood™, where “Ebony” requires a higher temperature than “Coconut”, and Protopasta “Magnetic Iron” prints fine at 205-225º, whereas their Stainless Steel seems to require 235º.

3D Printing Materials Filament and 3d Printer Filament Suppliers – Miami – Florida, USA – Meltink3d, Filaments PLA/PHA, PLA, ABS, Quality Premium,Product uniform smooth,Infinite colors custom, Biodegradable 100%, Compatibility all printers, Warranty a satisfactory print, Made in USA High quality standards

3D Printing Materials Filament

Our PLA /PHA is available in a huge variety of colors! Colors is what we know and therefore we select those colors that work well for 3d printing filaments. We also do a color matching service for those that are looking for a very specific color.

3D Printing Materials Filament

Meltink is a family owned 3D printing filament US manufacturer company, located in Miami, Fl., aspiring to provide you the finest quality materials to you will be able to convert any piece you print in an unique artist creation.

3D Printing Materials Filament

Finally after a long process of researching, testing and processing resins, we are vey satisfied to announce were able to establish our brand to release the highest 3D printing filament quality.

3D Printing Materials Filament

At the end of 2014, we started researching, testing, and processing resins as an adventure of make a new plastic product, the 3d printing filament, our first results were no bad and immediately decided change experimentation for a serious project. Having worked in the plastic extruding industry field over 20 years, we also have developed our own filament extruding line.

3D Printing Materials Filament

Finally, at the summer of 2015, we are able to establish our brand to release the highest standards of quality filaments. In three months we shipped one thousands national and international samples and we obtained good feedback of our quality.

3D Printing Materials Filament

We seek to ensure supply you with accurate products to improving your 3D printing experience with our support. Our team is focused in testing each material that we provide you. As you we are manufacturing we know you need to be sure that your machine will run full working day, then you will have more time to developed your next project.

3D Printing Materials Filament

Our goal is to provide the greatest 3D printing filament and services quality for you to make your 3d printing performance the best experience. Making use of our more than 20 years of proficiency skills in the plastic industry we can promise you, our materials achieves overcome the most demanding standards. We aim to have satisfied customers and are eager to help and service them.

If your child play with this espectacular toy, would you like it to break easily ?

First of all, you should not have to pay more for PLA/PHA, if you do not need specific properties of this blend. If you print only prototype objects that will not been under higher or lower temperature conditions, under weight or strength, you do not need to pay more, you can go directly and print with PLA 3D filament.

The problem starts when you need to print functional and durable objects that need to have certain temperature tolerance, tension, or strength resistance. At this moment you have to decide if you will pay more and go through the biodegradable way or if you save money and print with petroleum base plastic.

Secondly, if you are a 3D printer professional and your 3D printer works with ABS, you could save money printing with ABS. You do not have to pay more for your creation to be long lasting. Otherwise, if you are an amateur in the 3D printing field, the cost of failures printer is more with this material. ABS filament tends to warp so you need more experience to print with it. Also, you have to take certain precautions with ABS printing odor; printer must be in a ventilated area and being careful with external temperature that could affect your ABS print. If your 3D printer is closed your results will be better. Learning to print with ABS is a big challenge. If you can manage time consuming cost, sense of frustration and recycle on a property way all your experiment and bad printers, definitely “will save you money.”

So if your 3D printer only prints PLA, you only have a way to print functional and durable objects: you have to pay the difference between durable or just disposable objects. Quality and durability have an extra cost. You have to pay a little extra and buy PLA/PHA 3D printing filament. Enjoy printing because it is easier to print with. PHA acts as and impact modifier, making PLA stronger so your creation will last.

Why PLA/PHA 3D printing filament is more expensive? The discovery of the first biodegradable plastic was in 1920; it was until the 90’s oil crisis, that researches intensified working on it. Bio plastics market is still relatively young and small, and PHA has associated a longer chemistry production process than PLA.

Manufacturing ABS and PLA filaments have more or less a similar cost. Until now PHA resin cost is higher. While we have being waiting the industry to develop mass process to reduce this cost.

Even thought we have good news for you, our PLA/PHA 3D printing filament is cheaper than others that you can find in a 3D printing market and also have more quantity. Do your own comparison!

What is 3D printing filament?
While different types of 3D printing materials exist, the most common on the market for consumers today is known as 3D printing filament. Thread-like in appearance (though much thicker), 3D printing filament is heated and extruded through a moving nozzle. The material is layered vertically until a 3D object with height, width, and depth is formed. From standard plastic to simulated metal or wood, there is a variety of 3D printing filaments to choose from.

Popular 3D printing filaments on the market today
Of the many filaments available, certain materials are used more commonly than others. Today we’ll be looking more closely at four of the most commonly used printing filaments: ABS, PLA, HIPS, and PVA.

ABS and PLA are used for a variety of 3D printed objects, are available in a wide range of colors, and are most often used for their versatile material properties, ease of use, and limited printing difficulty. While PLA and ABS share some overlap in characteristics, they differ. ABS is extremely durable, used for outdoor furniture, toys, consumer products, and other high impact applications. PLA is fairly strong, but may be more brittle depending on the object’s geometry. PLA is also easier to print with, as it does not require a heated build platform as compared to ABS

ABS (Acrylonitrile Butadiene Styrene)
While ABS is stronger and harder than PLA, it requires a higher melting point and consistent temperature distribution along the geometry of an object. As a result, a heated build platform is used to prevent uneven shrinkage, layer distortion, or warping. ABS is petroleum based & emits fumes during printing, so an enclosed build area or proper ventilation is required. While it has its 3D printing nuances, ABS is an extremely durable, reliable, and sturdy material used across multiple industries. Its tough, glossy (with appropriate finishing) surface also provides a longer service life for parts. ABS is however sensitive to prolonged exposure to sunlight, which can degrade its characteristics over time.

PLA (Polylactic Acid)
PLA is derived from cornstarch, sugar cane, and tapioca root, making it a bio-degradable plastic that emits a sweet popcorn-like aroma when heated. It doesn’t require excessive ventilation or an enclosed build area, though there’s no harm in using either of those to limit any fumes. While it prints at lower temperatures compared to ABS, it’s also generally less finicky and does not require a heated build plate. Somewhat shiny and smooth in appearance, PLA offers minimal flexibility (depending on the object’s geometry) but is also more brittle than ABS. While ABS is robust and hard, PLA can offer smoother layering and better handling of details

Exciting times for 3D printing filament development
With so many filaments ready at your disposal, choosing a starting point may seem daunting. Start with basic prints using ABS or PLA (depending on your printer) and don’t be afraid of trial and error with different manufacturers. In due time, you’ll be able to recognize and understand the behaviors of different filaments. Even ABS or PLA from different manufacturers will feature various performance differences due to the manufacturing process, material content, and even the pigment used for color itself. For example, red PLA from Colorfabb prints between 190-210°C; a similar red PLA from Makerbot may print better at 220°C. Specialty filaments that contain various substances such as metallic powder, wood grains, and UV sensitive particles may require additional experimentation with print speeds and extrusion rates.
A good technique for exploring the parameters of different filaments is through the use of print “calibration shapes”. One example of these is the 3D Printer Test Kit from 3D Kitbash. Make sure to record your results, including all successes and errors so you can refer back to them.

We print mechanical parts with some of these materials every day and know them quite well. Due to time constraints, however, we are not able to test every material extensively. Those we are not highly familiar with are noted in the Remarks column, and “5-star” ratings have been reserved for the materials we know best.
The Zortrax™ v2 hot end should be used for all materials except those that are ABS-based.
The shim supplied with your Z-Temp™ should be used with most PLA materials (PolyMax being an exception). If you don’t use the shim, you may experience feed stepper clicking on the first layer due to back-pressure, and/or the layers will not be where the z-code expects them to be (vertically speaking), resulting in problems.
We use the Z-ABS™ slicing profile almost exclusively. It provides more layer thickness options than other profiles, and we have not seen significant differences in printing speed, retraction etc. – not there aren’t any, but we haven’t noticed. Also, the nominal extrusion temperature of Z-ABS has remained more constant at 275ºC than other profiles, which seem to change from Z-Suite version to version. This is why most of the temperatures listed end in “5”, since Z-Temp can only step in increments of 10º. If you really need a temperature multiple of 10 degrees you can use a profile, like Z-HIPS, whose nominal temp is 260º under Z-Suite 1.3.x.
We print with dual fans blowing on the print (printable dual fan mount here), and typically use a 80-100% manual fan setting for PLA. Be aware, however, that when the fans first start at the end of raft printing, the extruder temperature can drop as much as 10ºC and can take as long as five minutes to recover to the set temperature. When using materials with a narrow usable temperature range this can cause extrusion failure. The “Auto” fan setting in Z-Suite actually results in higher airflow levels than 100% manual fan, and should generally not be used for PLA.
We use layer thicknesses of 190 and 290µ in our testing.
Material color can have a surprisingly large effect on results; we hypothesize that it may be related to differences in absorption of IR (heat) radiation inside the extruder. An example is Octave PLA, where we’ve found that gray and black are consistently wonderful and green works fine, but we had trouble getting white to adhere to itself. Others are EasyWood™, where “Ebony” requires a higher temperature than “Coconut”, and Protopasta “Magnetic Iron” prints fine at 205-225º, whereas their Stainless Steel seems to require 235º.

3D Printing Materials Filament and 3d Printer Filament Suppliers – Miami – Florida, USA – Meltink3d, Filaments PLA/PHA, PLA, ABS, Quality Premium,Product uniform smooth,Infinite colors custom, Biodegradable 100%, Compatibility all printers, Warranty a satisfactory print, Made in USA High quality standards

3D Printing Materials Filament

Our PLA /PHA is available in a huge variety of colors! Colors is what we know and therefore we select those colors that work well for 3d printing filaments. We also do a color matching service for those that are looking for a very specific color.

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

Meltink is a family owned 3D printing filament US manufacturer company, located in Miami, Fl., aspiring to provide you the finest quality materials to you will be able to convert any piece you print in an unique artist creation.

3D Printing Materials Filament

Finally after a long process of researching, testing and processing resins, we are vey satisfied to announce were able to establish our brand to release the highest 3D printing filament quality.

3D Printing Materials Filament

At the end of 2014, we started researching, testing, and processing resins as an adventure of make a new plastic product, the 3d printing filament, our first results were no bad and immediately decided change experimentation for a serious project. Having worked in the plastic extruding industry field over 20 years, we also have developed our own filament extruding line.

3D Printing Materials Filament

Finally, at the summer of 2015, we are able to establish our brand to release the highest standards of quality filaments. In three months we shipped one thousands national and international samples and we obtained good feedback of our quality.

3D Printing Materials Filament

We seek to ensure supply you with accurate products to improving your 3D printing experience with our support. Our team is focused in testing each material that we provide you. As you we are manufacturing we know you need to be sure that your machine will run full working day, then you will have more time to developed your next project.

3D Printing Materials Filament

Our goal is to provide the greatest 3D printing filament and services quality for you to make your 3d printing performance the best experience. Making use of our more than 20 years of proficiency skills in the plastic industry we can promise you, our materials achieves overcome the most demanding standards. We aim to have satisfied customers and are eager to help and service them.

3D Printing Materials Filament and 3d Printer Filament Suppliers – Miami – Florida, USA – Meltink3d, Filaments PLA/PHA, PLA, ABS, Quality Premium,Product uniform smooth,Infinite colors custom, Biodegradable 100%, Compatibility all printers, Warranty a satisfactory print, Made in USA High quality standards

3D Printing Materials Filament

Our PLA /PHA is available in a huge variety of colors! Colors is what we know and therefore we select those colors that work well for 3d printing filaments. We also do a color matching service for those that are looking for a very specific color.

3D Printing Materials Filament

Meltink is a family owned 3D printing filament US manufacturer company, located in Miami, Fl., aspiring to provide you the finest quality materials to you will be able to convert any piece you print in an unique artist creation.

3D Printing Materials Filament

Finally after a long process of researching, testing and processing resins, we are vey satisfied to announce were able to establish our brand to release the highest 3D printing filament quality.

3D Printing Materials Filament

At the end of 2014, we started researching, testing, and processing resins as an adventure of make a new plastic product, the 3d printing filament, our first results were no bad and immediately decided change experimentation for a serious project. Having worked in the plastic extruding industry field over 20 years, we also have developed our own filament extruding line.

3D Printing Materials Filament

Finally, at the summer of 2015, we are able to establish our brand to release the highest standards of quality filaments. In three months we shipped one thousands national and international samples and we obtained good feedback of our quality.

3D Printing Materials Filament

We seek to ensure supply you with accurate products to improving your 3D printing experience with our support. Our team is focused in testing each material that we provide you. As you we are manufacturing we know you need to be sure that your machine will run full working day, then you will have more time to developed your next project.

3D Printing Materials Filament

Our goal is to provide the greatest 3D printing filament and services quality for you to make your 3d printing performance the best experience. Making use of our more than 20 years of proficiency skills in the plastic industry we can promise you, our materials achieves overcome the most demanding standards. We aim to have satisfied customers and are eager to help and service them.

If your child play with this espectacular toy, would you like it to break easily ?

First of all, you should not have to pay more for PLA/PHA, if you do not need specific properties of this blend. If you print only prototype objects that will not been under higher or lower temperature conditions, under weight or strength, you do not need to pay more, you can go directly and print with PLA 3D filament.

The problem starts when you need to print functional and durable objects that need to have certain temperature tolerance, tension, or strength resistance. At this moment you have to decide if you will pay more and go through the biodegradable way or if you save money and print with petroleum base plastic.

Secondly, if you are a 3D printer professional and your 3D printer works with ABS, you could save money printing with ABS. You do not have to pay more for your creation to be long lasting. Otherwise, if you are an amateur in the 3D printing field, the cost of failures printer is more with this material. ABS filament tends to warp so you need more experience to print with it. Also, you have to take certain precautions with ABS printing odor; printer must be in a ventilated area and being careful with external temperature that could affect your ABS print. If your 3D printer is closed your results will be better. Learning to print with ABS is a big challenge. If you can manage time consuming cost, sense of frustration and recycle on a property way all your experiment and bad printers, definitely “will save you money.”

So if your 3D printer only prints PLA, you only have a way to print functional and durable objects: you have to pay the difference between durable or just disposable objects. Quality and durability have an extra cost. You have to pay a little extra and buy PLA/PHA 3D printing filament. Enjoy printing because it is easier to print with. PHA acts as and impact modifier, making PLA stronger so your creation will last.

Why PLA/PHA 3D printing filament is more expensive? The discovery of the first biodegradable plastic was in 1920; it was until the 90’s oil crisis, that researches intensified working on it. Bio plastics market is still relatively young and small, and PHA has associated a longer chemistry production process than PLA.

Manufacturing ABS and PLA filaments have more or less a similar cost. Until now PHA resin cost is higher. While we have being waiting the industry to develop mass process to reduce this cost.

Even thought we have good news for you, our PLA/PHA 3D printing filament is cheaper than others that you can find in a 3D printing market and also have more quantity. Do your own comparison!

What is 3D printing filament?
While different types of 3D printing materials exist, the most common on the market for consumers today is known as 3D printing filament. Thread-like in appearance (though much thicker), 3D printing filament is heated and extruded through a moving nozzle. The material is layered vertically until a 3D object with height, width, and depth is formed. From standard plastic to simulated metal or wood, there is a variety of 3D printing filaments to choose from.

Popular 3D printing filaments on the market today
Of the many filaments available, certain materials are used more commonly than others. Today we’ll be looking more closely at four of the most commonly used printing filaments: ABS, PLA, HIPS, and PVA.

ABS and PLA are used for a variety of 3D printed objects, are available in a wide range of colors, and are most often used for their versatile material properties, ease of use, and limited printing difficulty. While PLA and ABS share some overlap in characteristics, they differ. ABS is extremely durable, used for outdoor furniture, toys, consumer products, and other high impact applications. PLA is fairly strong, but may be more brittle depending on the object’s geometry. PLA is also easier to print with, as it does not require a heated build platform as compared to ABS

ABS (Acrylonitrile Butadiene Styrene)
While ABS is stronger and harder than PLA, it requires a higher melting point and consistent temperature distribution along the geometry of an object. As a result, a heated build platform is used to prevent uneven shrinkage, layer distortion, or warping. ABS is petroleum based & emits fumes during printing, so an enclosed build area or proper ventilation is required. While it has its 3D printing nuances, ABS is an extremely durable, reliable, and sturdy material used across multiple industries. Its tough, glossy (with appropriate finishing) surface also provides a longer service life for parts. ABS is however sensitive to prolonged exposure to sunlight, which can degrade its characteristics over time.

PLA (Polylactic Acid)
PLA is derived from cornstarch, sugar cane, and tapioca root, making it a bio-degradable plastic that emits a sweet popcorn-like aroma when heated. It doesn’t require excessive ventilation or an enclosed build area, though there’s no harm in using either of those to limit any fumes. While it prints at lower temperatures compared to ABS, it’s also generally less finicky and does not require a heated build plate. Somewhat shiny and smooth in appearance, PLA offers minimal flexibility (depending on the object’s geometry) but is also more brittle than ABS. While ABS is robust and hard, PLA can offer smoother layering and better handling of details

Exciting times for 3D printing filament development
With so many filaments ready at your disposal, choosing a starting point may seem daunting. Start with basic prints using ABS or PLA (depending on your printer) and don’t be afraid of trial and error with different manufacturers. In due time, you’ll be able to recognize and understand the behaviors of different filaments. Even ABS or PLA from different manufacturers will feature various performance differences due to the manufacturing process, material content, and even the pigment used for color itself. For example, red PLA from Colorfabb prints between 190-210°C; a similar red PLA from Makerbot may print better at 220°C. Specialty filaments that contain various substances such as metallic powder, wood grains, and UV sensitive particles may require additional experimentation with print speeds and extrusion rates.
A good technique for exploring the parameters of different filaments is through the use of print “calibration shapes”. One example of these is the 3D Printer Test Kit from 3D Kitbash. Make sure to record your results, including all successes and errors so you can refer back to them.

We print mechanical parts with some of these materials every day and know them quite well. Due to time constraints, however, we are not able to test every material extensively. Those we are not highly familiar with are noted in the Remarks column, and “5-star” ratings have been reserved for the materials we know best.
The Zortrax™ v2 hot end should be used for all materials except those that are ABS-based.
The shim supplied with your Z-Temp™ should be used with most PLA materials (PolyMax being an exception). If you don’t use the shim, you may experience feed stepper clicking on the first layer due to back-pressure, and/or the layers will not be where the z-code expects them to be (vertically speaking), resulting in problems.
We use the Z-ABS™ slicing profile almost exclusively. It provides more layer thickness options than other profiles, and we have not seen significant differences in printing speed, retraction etc. – not there aren’t any, but we haven’t noticed. Also, the nominal extrusion temperature of Z-ABS has remained more constant at 275ºC than other profiles, which seem to change from Z-Suite version to version. This is why most of the temperatures listed end in “5”, since Z-Temp can only step in increments of 10º. If you really need a temperature multiple of 10 degrees you can use a profile, like Z-HIPS, whose nominal temp is 260º under Z-Suite 1.3.x.
We print with dual fans blowing on the print (printable dual fan mount here), and typically use a 80-100% manual fan setting for PLA. Be aware, however, that when the fans first start at the end of raft printing, the extruder temperature can drop as much as 10ºC and can take as long as five minutes to recover to the set temperature. When using materials with a narrow usable temperature range this can cause extrusion failure. The “Auto” fan setting in Z-Suite actually results in higher airflow levels than 100% manual fan, and should generally not be used for PLA.
We use layer thicknesses of 190 and 290µ in our testing.
Material color can have a surprisingly large effect on results; we hypothesize that it may be related to differences in absorption of IR (heat) radiation inside the extruder. An example is Octave PLA, where we’ve found that gray and black are consistently wonderful and green works fine, but we had trouble getting white to adhere to itself. Others are EasyWood™, where “Ebony” requires a higher temperature than “Coconut”, and Protopasta “Magnetic Iron” prints fine at 205-225º, whereas their Stainless Steel seems to require 235º.

3D Printing Materials Filament and 3d Printer Filament Suppliers – Miami – Florida, USA – Meltink3d, Filaments PLA/PHA, PLA, ABS, Quality Premium,Product uniform smooth,Infinite colors custom, Biodegradable 100%, Compatibility all printers, Warranty a satisfactory print, Made in USA High quality standards

3D Printing Materials Filament

Our PLA /PHA is available in a huge variety of colors! Colors is what we know and therefore we select those colors that work well for 3d printing filaments. We also do a color matching service for those that are looking for a very specific color.

3D Printing Materials Filament

Meltink is a family owned 3D printing filament US manufacturer company, located in Miami, Fl., aspiring to provide you the finest quality materials to you will be able to convert any piece you print in an unique artist creation.

3D Printing Materials Filament

Finally after a long process of researching, testing and processing resins, we are vey satisfied to announce were able to establish our brand to release the highest 3D printing filament quality.

3D Printing Materials Filament

At the end of 2014, we started researching, testing, and processing resins as an adventure of make a new plastic product, the 3d printing filament, our first results were no bad and immediately decided change experimentation for a serious project. Having worked in the plastic extruding industry field over 20 years, we also have developed our own filament extruding line.

3D Printing Materials Filament

Finally, at the summer of 2015, we are able to establish our brand to release the highest standards of quality filaments. In three months we shipped one thousands national and international samples and we obtained good feedback of our quality.

3D Printing Materials Filament

We seek to ensure supply you with accurate products to improving your 3D printing experience with our support. Our team is focused in testing each material that we provide you. As you we are manufacturing we know you need to be sure that your machine will run full working day, then you will have more time to developed your next project.

3D Printing Materials Filament

Our goal is to provide the greatest 3D printing filament and services quality for you to make your 3d printing performance the best experience. Making use of our more than 20 years of proficiency skills in the plastic industry we can promise you, our materials achieves overcome the most demanding standards. We aim to have satisfied customers and are eager to help and service them.

If your child play with this espectacular toy, would you like it to break easily ?

First of all, you should not have to pay more for PLA/PHA, if you do not need specific properties of this blend. If you print only prototype objects that will not been under higher or lower temperature conditions, under weight or strength, you do not need to pay more, you can go directly and print with PLA 3D filament.

The problem starts when you need to print functional and durable objects that need to have certain temperature tolerance, tension, or strength resistance. At this moment you have to decide if you will pay more and go through the biodegradable way or if you save money and print with petroleum base plastic.

Secondly, if you are a 3D printer professional and your 3D printer works with ABS, you could save money printing with ABS. You do not have to pay more for your creation to be long lasting. Otherwise, if you are an amateur in the 3D printing field, the cost of failures printer is more with this material. ABS filament tends to warp so you need more experience to print with it. Also, you have to take certain precautions with ABS printing odor; printer must be in a ventilated area and being careful with external temperature that could affect your ABS print. If your 3D printer is closed your results will be better. Learning to print with ABS is a big challenge. If you can manage time consuming cost, sense of frustration and recycle on a property way all your experiment and bad printers, definitely “will save you money.”

So if your 3D printer only prints PLA, you only have a way to print functional and durable objects: you have to pay the difference between durable or just disposable objects. Quality and durability have an extra cost. You have to pay a little extra and buy PLA/PHA 3D printing filament. Enjoy printing because it is easier to print with. PHA acts as and impact modifier, making PLA stronger so your creation will last.

Why PLA/PHA 3D printing filament is more expensive? The discovery of the first biodegradable plastic was in 1920; it was until the 90’s oil crisis, that researches intensified working on it. Bio plastics market is still relatively young and small, and PHA has associated a longer chemistry production process than PLA.

Manufacturing ABS and PLA filaments have more or less a similar cost. Until now PHA resin cost is higher. While we have being waiting the industry to develop mass process to reduce this cost.

Even thought we have good news for you, our PLA/PHA 3D printing filament is cheaper than others that you can find in a 3D printing market and also have more quantity. Do your own comparison!

What is 3D printing filament?
While different types of 3D printing materials exist, the most common on the market for consumers today is known as 3D printing filament. Thread-like in appearance (though much thicker), 3D printing filament is heated and extruded through a moving nozzle. The material is layered vertically until a 3D object with height, width, and depth is formed. From standard plastic to simulated metal or wood, there is a variety of 3D printing filaments to choose from.

Popular 3D printing filaments on the market today
Of the many filaments available, certain materials are used more commonly than others. Today we’ll be looking more closely at four of the most commonly used printing filaments: ABS, PLA, HIPS, and PVA.

ABS and PLA are used for a variety of 3D printed objects, are available in a wide range of colors, and are most often used for their versatile material properties, ease of use, and limited printing difficulty. While PLA and ABS share some overlap in characteristics, they differ. ABS is extremely durable, used for outdoor furniture, toys, consumer products, and other high impact applications. PLA is fairly strong, but may be more brittle depending on the object’s geometry. PLA is also easier to print with, as it does not require a heated build platform as compared to ABS

ABS (Acrylonitrile Butadiene Styrene)
While ABS is stronger and harder than PLA, it requires a higher melting point and consistent temperature distribution along the geometry of an object. As a result, a heated build platform is used to prevent uneven shrinkage, layer distortion, or warping. ABS is petroleum based & emits fumes during printing, so an enclosed build area or proper ventilation is required. While it has its 3D printing nuances, ABS is an extremely durable, reliable, and sturdy material used across multiple industries. Its tough, glossy (with appropriate finishing) surface also provides a longer service life for parts. ABS is however sensitive to prolonged exposure to sunlight, which can degrade its characteristics over time.

PLA (Polylactic Acid)
PLA is derived from cornstarch, sugar cane, and tapioca root, making it a bio-degradable plastic that emits a sweet popcorn-like aroma when heated. It doesn’t require excessive ventilation or an enclosed build area, though there’s no harm in using either of those to limit any fumes. While it prints at lower temperatures compared to ABS, it’s also generally less finicky and does not require a heated build plate. Somewhat shiny and smooth in appearance, PLA offers minimal flexibility (depending on the object’s geometry) but is also more brittle than ABS. While ABS is robust and hard, PLA can offer smoother layering and better handling of details

Exciting times for 3D printing filament development
With so many filaments ready at your disposal, choosing a starting point may seem daunting. Start with basic prints using ABS or PLA (depending on your printer) and don’t be afraid of trial and error with different manufacturers. In due time, you’ll be able to recognize and understand the behaviors of different filaments. Even ABS or PLA from different manufacturers will feature various performance differences due to the manufacturing process, material content, and even the pigment used for color itself. For example, red PLA from Colorfabb prints between 190-210°C; a similar red PLA from Makerbot may print better at 220°C. Specialty filaments that contain various substances such as metallic powder, wood grains, and UV sensitive particles may require additional experimentation with print speeds and extrusion rates.
A good technique for exploring the parameters of different filaments is through the use of print “calibration shapes”. One example of these is the 3D Printer Test Kit from 3D Kitbash. Make sure to record your results, including all successes and errors so you can refer back to them.

We print mechanical parts with some of these materials every day and know them quite well. Due to time constraints, however, we are not able to test every material extensively. Those we are not highly familiar with are noted in the Remarks column, and “5-star” ratings have been reserved for the materials we know best.
The Zortrax™ v2 hot end should be used for all materials except those that are ABS-based.
The shim supplied with your Z-Temp™ should be used with most PLA materials (PolyMax being an exception). If you don’t use the shim, you may experience feed stepper clicking on the first layer due to back-pressure, and/or the layers will not be where the z-code expects them to be (vertically speaking), resulting in problems.
We use the Z-ABS™ slicing profile almost exclusively. It provides more layer thickness options than other profiles, and we have not seen significant differences in printing speed, retraction etc. – not there aren’t any, but we haven’t noticed. Also, the nominal extrusion temperature of Z-ABS has remained more constant at 275ºC than other profiles, which seem to change from Z-Suite version to version. This is why most of the temperatures listed end in “5”, since Z-Temp can only step in increments of 10º. If you really need a temperature multiple of 10 degrees you can use a profile, like Z-HIPS, whose nominal temp is 260º under Z-Suite 1.3.x.
We print with dual fans blowing on the print (printable dual fan mount here), and typically use a 80-100% manual fan setting for PLA. Be aware, however, that when the fans first start at the end of raft printing, the extruder temperature can drop as much as 10ºC and can take as long as five minutes to recover to the set temperature. When using materials with a narrow usable temperature range this can cause extrusion failure. The “Auto” fan setting in Z-Suite actually results in higher airflow levels than 100% manual fan, and should generally not be used for PLA.
We use layer thicknesses of 190 and 290µ in our testing.
Material color can have a surprisingly large effect on results; we hypothesize that it may be related to differences in absorption of IR (heat) radiation inside the extruder. An example is Octave PLA, where we’ve found that gray and black are consistently wonderful and green works fine, but we had trouble getting white to adhere to itself. Others are EasyWood™, where “Ebony” requires a higher temperature than “Coconut”, and Protopasta “Magnetic Iron” prints fine at 205-225º, whereas their Stainless Steel seems to require 235º.

3D Printing Materials Filament and 3d Printer Filament Suppliers – Miami – Florida, USA – Meltink3d, Filaments PLA/PHA, PLA, ABS, Quality Premium,Product uniform smooth,Infinite colors custom, Biodegradable 100%, Compatibility all printers, Warranty a satisfactory print, Made in USA High quality standards

3D Printing Materials Filament

Our PLA /PHA is available in a huge variety of colors! Colors is what we know and therefore we select those colors that work well for 3d printing filaments. We also do a color matching service for those that are looking for a very specific color.

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

3D Printing Materials Filament

Meltink is a family owned 3D printing filament US manufacturer company, located in Miami, Fl., aspiring to provide you the finest quality materials to you will be able to convert any piece you print in an unique artist creation.

3D Printing Materials Filament

Finally after a long process of researching, testing and processing resins, we are vey satisfied to announce were able to establish our brand to release the highest 3D printing filament quality.

3D Printing Materials Filament

At the end of 2014, we started researching, testing, and processing resins as an adventure of make a new plastic product, the 3d printing filament, our first results were no bad and immediately decided change experimentation for a serious project. Having worked in the plastic extruding industry field over 20 years, we also have developed our own filament extruding line.

3D Printing Materials Filament

Finally, at the summer of 2015, we are able to establish our brand to release the highest standards of quality filaments. In three months we shipped one thousands national and international samples and we obtained good feedback of our quality.

3D Printing Materials Filament

We seek to ensure supply you with accurate products to improving your 3D printing experience with our support. Our team is focused in testing each material that we provide you. As you we are manufacturing we know you need to be sure that your machine will run full working day, then you will have more time to developed your next project.

3D Printing Materials Filament

Our goal is to provide the greatest 3D printing filament and services quality for you to make your 3d printing performance the best experience. Making use of our more than 20 years of proficiency skills in the plastic industry we can promise you, our materials achieves overcome the most demanding standards. We aim to have satisfied customers and are eager to help and service them.

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3D Printing Materials Filament and 3d Printer Filament Suppliers - Miami - Florida, USA - Meltink3d Filaments PLA/PHA, PLA, ABS, 3d printing filament Quality Premium,Product uniform smooth,Infinite colors custom, Biodegradable 100%, Compatibility all printers, Warranty a satisfactory print, Made in USA High quality standards
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3D Printing Materials Filament and 3d Printer Filament Suppliers - Miami - Florida, USA - Meltink3d Filaments PLA/PHA, PLA, ABS, 3d printing filament Quality Premium,Product uniform smooth,Infinite colors custom, Biodegradable 100%, Compatibility all printers, Warranty a satisfactory print, Made in USA High quality standards
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Best 3D Printing Materials Filament and 3d Printer Filament Suppliers - Miami- Florida, USA - Meltink3d, Filaments PLA/PHA, PLA, ABS premium quality, product uniform smooth, compatibility all printers, biodegradable 100%, infinite colors custom

We are a company with over 20 years experience in the extrusion of plastic items. We have refined our process to provide a product that meets the market demands, “Made in USA”

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3D Printing Materials Filament and 3d Printer Filament Suppliers - Miami - Florida, USA - Meltink3d Filaments PLA/PHA, PLA, ABS, 3d printing filament Quality Premium,Product uniform smooth,Infinite colors custom, Biodegradable 100%, Compatibility all printers, Warranty a satisfactory print, Made in USA High quality standards
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Meltink3D - Best Printing 3D matearials filament
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3D Printing Materials Filament and 3d Printer Filament Suppliers - Miami - Florida, USA - Meltink3d Filaments PLA/PHA, PLA, ABS, 3d printing filament Quality Premium,Product uniform smooth,Infinite colors custom, Biodegradable 100%, Compatibility all printers, Warranty a satisfactory print, Made in USA High quality standards
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Made United States, Albany – New York, Austin – Texas, Sacramento – California, Los Angeles – California, Chicago – Illinois, Houston – Texas, Philadelphia – Pennsylvania, Phoenix – Arizona, San Antonio – Texas, San Diego – California, Dallas – Texas, San Jose – California, Austin – Texas, Jacksonville, Florida, San Francisco – California, Indianapolis – IIndiana, Columbus – Ohio, Fort Worth – Texas, Charlotte – North Carolina, Detroit – Michigan, El Paso – Texas, Seattle – Washington, Denver – Colorado, Washington – District of Columbia, Memphis – Tennessee, Boston – Massachusetts, Nashville-Davidson – Tennessee, Baltimore – Maryland, Oklahoma City, Oklahoma, Portland – Oregon, Las Vegas – Nevada, Louisville-Jefferson County, Kentucky, Milwaukee – Wisconsin, Albuquerque – New Mexico, Tucson, Arizona, Fresno – California, Sacramento – California, Long Beach – California, Kansas City – metropolitan area, Mesa – Arizona, Atlanta – Georgia, Virginia Beach – Virginia, Omaha – Nebraska, Colorado Springs – Colorado, Raleigh – North Carolina, Miami – Florida, Oakland – California, Minneapolis – Minnesota, Tulsa – Oklahoma, Cleveland – Ohio, Wichita – Kansas, New Orleans – Louisiana, Arlington – Texas

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Meltink3D - Best Printing 3D matearials filament
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3D Printing Materials Filament and 3d Printer Filament Suppliers - Miami - Florida, USA - Meltink3d Filaments PLA/PHA, PLA, ABS, 3d printing filament Quality Premium,Product uniform smooth,Infinite colors custom, Biodegradable 100%, Compatibility all printers, Warranty a satisfactory print, Made in USA High quality standards
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