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3D Printed Flexible Phone Case with TPU Material | Free CAD Model and Slicer Profile.

Why pay top dollar for a premium phone case when you can 3d print your own phone case with a custom design of your choice for a fraction of a cost? Here we will look at 3d printing phone case, what material is best for 3d printing phone case and in the end we will share our own CAD model of a Samsung S8+ phone case and a TPU slicer settings profile.

Can I 3D Print Phone Case?

Yes, most definitely. In fact I did just that and the results are astonishing. I printed in both, the most famous PLA filament and the less 3d printer friendly TPU. It is now my favorite custom 3d printed phone case and people love it. It’s a great way to showcase your work and attract people to 3d printing.

3D printing TPU is much more difficult that traditional PLA. The TPU material filament is very soft making it very difficult to push thru bowden tube if that is what your printer is equipped with. Although it is not impossible, I have successfully 3d printed a perfect TPU flexible phone case with a bowden tube.

From my research online it seems like most people critically recommend to have the retraction setting turned off when printing TPU. However when I have experimented this and had my retraction off I did not find it to be the most optimal setting.

Even thou the TPU is soft it still builds up a lot of pressure at the hot end nozzle and when moving from one point to another without dispensing the nozzle will still continue to ooze the filament resulting in very heavy stringing. It is ideal to have the retraction setting on at a very minimal. Just enough to release the build up pressure but not enough to pull the molten elastic material deep in the hot end nozzle and create a clog. My retraction setting is set at 0.5 mm with a bowden tube printer.

How Long Does It Take To 3D Print Phone Case?

3D Printing speed heavily depends on the material being printed and the printer settings. Typically you can expect an average around 3-4 hours to 3d print phone case in PLA and 9-11 hours to 3d print phone case in TPU filament.

3D Printing is a very slow process and majority of the speed setting will depend on the 3d printer and the filament material type. When I 3d printed a phone case in PLA filament with .01mm layer height it only took slightly under 3 hours to complete. Then I printed the same phone case with the same layer height in TPU filament and the print took almost 10 hours to finish. That is because the TPU filament material must be printed much slower than PLA.

How Much Does It Cost To 3D Print A Phone Case?

When 3d printing nearly entire cost is the cost of material. My 3d printed phone case in TPU filament material cost me about $1.08 per phone case. This does not include the cost of 3d printer energy consumption which would be about $0.09 for an average of 10 hours print time.

I used TPU filament from Amazon Basics and it worked out perfect for me on a Creality Ender 3 pro with a bowden tube. The cost breakdown:

1 kg spool of Amazon Basics TPU filament material cost me $30.32. The weight of 1 3d printed case is .035 kg. Take 1 kg and divide by .035 kg weight one case and get 28.57 cases can be made from 1 kg spool. Now the cost of $30.32 divided into 28 cases gives us $1.082 cost per case. So, is it really worth it to 3d print a phone case? yes

1 kg spool of TPU$30.32
.035 kg = 1 3d printed phone case$1.08
28 Cases from one spool
3d printed phone case on a weight scale

TPU Case vs. Hard Case

hard case usually consists of solid plastic or PLA if 3d printed and lack the ability to provide a bumper cushion in an instance of an impact. A rubber-like material intended to cope with impacts or falls are often made of flexible materials such as silicone or thermoplastic polyurethane (TPU). Cases made of TPU are resistant to scratches, shock, and abrasion. Most of the cases that come with the phones are made of TPU.

What is TPU Material Filament?

TPU filament material (Thermoplastic Polyurethane) is a flexible, abrasion resistant thermoplastic. TPU filament is elastic and resistant to abrasion can withstand impacts and is resistant to many chemicals. Its versatile and used in many different industries including 3d printing. TPU filament is a great choice for 3d printing phone cases, tracks and tires for rc toys, and virtually anything that is needed to be done in flexible, soft, but durable and abrasion resistant material.

How Fast Can You Print TPU? | Speed Settings

TPU filament material is very elastic and soft therefore it is much more difficult to 3d print than the commonly used hard plastic like PLA. When 3d printing TPU on my Creality Ender 3 pro with bowden tube I have my 3d printer speed setting at about 18% of the PLA speed.

Print speed for flexible TPU filament should be in the range of 15 to 20 mm/sec (900 mm/min) for bowden tube 3d printer. Direct drive 3d printers may print at a slightly faster speed. Layer height should be set at 0.1 mm. Extrusion temperature may range from 200-230˚C with the heated bed set around 40-60˚C.

Is TPU Material Good for Phone Case?

Yes, TPU is a best choice of material for a phone case in my opinion. TPU material has a rubber like properties that serves as a bumper that covers your phone’s vulnerable corners in case of a drop. Unlike hard plastic cases which do not effectively absorb shock and are likelier to translate the impact onto the device itself. TPU is resistant to impact and abrasion therefore it will provide a much better protection to your phone and remain scratch free.

Is TPU Filament Material Toxic?

Great features of TPU are it is completely odorless and non-toxic when printing and in fact it is even used in biomedical applications.

TPU Material Properties Table.

PropertyPolyester-based TPU
Polyether-based TPU

Abrasion resistance
excellentexcellent
Mechanical properties
excellentgood
Low temperature flexibility
goodexcellent
Heat aging
goodpoor
Hydrolysis resistance
poorexcellent
Chemical resistance
excellentacceptable
Microbial resistance
poorexcellent
Adhesion strength
goodpoor
Injectabilitygoodgood
TPU material properties table

Is TPU Same As Silicone?

Both TPU and silicone are polymer-based materials and used in multiple industries for their physical qualities and both materials are soft. Silicone and TPU are the best materials that we can use protect our mobile phones from breaking but are they that same material? TPU and Silicone are not the same materials. For example: TPU has the benefit of flexibility like silicone but the non-grip effect of the plastic. If you take into account that silicone lasts for about a month before it starts to stretch and starts falling off your cellphone, the TPU will last for about 2 years before showing signs of wear.

Thermoplastic urethane is usually melted and extruded, TPU has hydrogen, carbon, oxygen and nitrogen in its backbone. silicones are often cast as a thermoset that is cured to form a cross linked polymer. Silicone has carbon, hydrogen silicon and oxygen as it’s composition.

TPU are generally stronger than silicone of similar molecular weight

TPU is any of a class of polyurethane plastics with many properties, including elasticity, transparency, and resistance to oil, grease and abrasion. Technically, they are thermoplastic elastomers consisting of linear segmented block copolymers composed of hard and soft segments.

Silicone, also known as polysiloxanes, are polymers that include any inert, synthetic compound made up of repeating units of siloxane, which is a chain of alternating silicon atoms and oxygen atoms, combined with carbon, hydrogen, and sometimes other elements.

Conclusion

Now that we covered the basics of TPU go ahead and head on over to Downloads tab above and put that TPU slicer profile to use, feel free to download the CAD model of the phone case as well. Be sure to have your TPU filament completely dried out before printing. TPU filament absorbs moisture when sitting out for some time and then the results may not be so pleasant as it will string heavily and produce very rough texture surface.

If you found this post helpful please share with others and subscribe so you don’t miss out on our latest post. Please like, comment and share with us you 3d printing experience.

Happy 3D Printing!

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Beginner Guide to 3D Printing | All Questions Answered

What is 3d printing?

3D printing is a way of creating three dimensional (3D) solid objects. 3D printing is done by building up the object layer by layer from a digital file. Usually, 3D printers use plastic, because it is easier to use, cheaper, and faster. More details on this topic can be found on our other post here.

What can be 3d printed?

Virtually anything you can imagine (toys, mechanical components, gadgets, robotics, prototypes, casting masters.) 3D printing is a really cool technology that has more capabilities than traditional manufacturing processes and it is faster and cheaper when performed on a small scale. This makes 3d printing perfect for testing or displaying prototypes of any sort or just for a side hobby for someone looking to do something with their time.

How do 3d printers work?

There are about 9 different types of 3d printers and we will cover in detail two most popular by process types.  

  • FDM
  • SLA

FDM – (Fused Deposition Modeling) is a 3d printing process that uses thermoplastic which is fed from the spool into a moving, computer controlled hot end nozzle. The hot end nozzle melts the thermoplastic known as filament and dispenses it onto a build plate as it is moving, Creating a solid structure layer by layer.

SLA –  (Stereolithography or optical fabrication) is a 3d printing process that uses a light beam and resin.  As the build plate moves up the light beam creates the chemical reaction in resin causing it to solidify into a solid object layer by layer.  

FDM vs. SLA –  FDM is a much faster, cheaper and cleaner process than SLA. SLA is usually used to 3d print smaller non functional objects.  SLA is more precise than FDM and finished models are usually cleaner and more detailed than those created on FDM printers. SLA is the oldest form of 3d printing and the model is created upside down attaching to the build plate while the FDM builds model upwards and can easily achieve structure overhang of 45 degrees without need of support.  FDM requires minimal if no clean up when the model is finished printing while SLA will require intense cleanup of the model and printer with harmful solvents and most resins are toxic and harmful.  Must use extra caution when dealing with SLA printing.

Different types of 3d printers by process

  • FDM – Fused Deposition Modeling
  • SLA – Stereolithography or optical fabrication
  • SLS – Selective Laser Sintering
  • SLM – Selective Laser Melting
  • DLP – Digital Light Processing
  • EBM – Electron Beam Melting
  • LOM – Laminated Object Manufacturing
  • BJ – Binder Jetting
  • Wax Casting

3D printing process.

  • CAD model 
  • Stl
  • Slice
  • Gcode
  • 3d print
  • Product

Every product first starts with a design.  There are many CAD software that will allow you to design the product that you wish to 3d print. 

Top 3 Free CAD Modeling Software

  1. Sketchup – Intermediate (No download required, Build it online)
  2. 3D Builder – Beginner
  3. FreeCAD – Intermediate 

Easy youTube search will guide you through any CAD software tutorial to help you get started in 3d modeling.  If you wish to skip the CAD modeling maybe because you don’t want to get into it yet or just want to 3d print something quickly there are many online sites where you can download files 3d printer ready.  

Top 3 Free CAD Model sites for 3D Printing

  1. Thingiverse
  2. Cults 
  3. GrabCAD

All 3 of these websites are platforms where anyone who has a 3d model can share their creation with the world.  All files are free on Thingiverse and Cults and these are 3d printing specific sites therefore most of the download files will include instructions for 3d printer type and recommended 3d printer setting to achieve the best results with the minimal amount of effort.  

What is 3d Print Slicing?

A 3d slicing is a process by which the slicing software converts the 3d CAD model from .stl file to a .gcode file that 3d printer will recognize and execute.  During the slicing process the operator may change the setting of the 3d printing speed, layer height, add supports and more.  When applying settings to slicer it is important to remember that different types of materials play a major role in a success of the finished product.

More information on 3d print slicing and prices can be found on our another post Here

3D Printing Materials

It is quite obvious that required materials would be different for different types of 3d printers but as a beginner you should be aware of different types of materials within a specific type of 3d printer.  3D printing with different materials is probably the most challenging part of the 3d printing adventure.  

Different types of 3D Printing materials for FDM Printer | Filaments

There are about 13 different types of filament for FDM printers available today and this number keeps expanding as more new materials are being developed constantly.

  • PLA – is the go-to material for most users due to its ease-of-use, dimensional accuracy, and low cost.
  • ABS – is a low-cost material, great for printing tough and durable parts that can withstand high temperatures.
  • TPU – is a flexible filament  known for their elasticity allowing the material to easily stretch and bend.
  • PETG – is a filament known for their ease of printability, smooth surface finish, and water resistance.
  • Nylon – is a tough and semi-flexible material that offers high impact and abrasion resistance. It is an ideal choice for printing durable parts.
  • Polycarbonate – is known for its strength and durability. It has very high heat and impact resistance making it an ideal choice for tough environments.
  • Polypropylene –  is great for high-cycle, low strength applications due to its fatigue resistance, semi-flexible, and lightweight characteristics.
  • PVA – is commonly known for its ability to be dissolved in water and is often used as a support material for complex prints.
  • HIPS – is a lightweight material most commonly used as a dissolvable support structure for ABS models.
  • ASA – is a common alternative to ABS and is great for outdoor applications due to its high UV, temperature, and impact resistance.
  • Metal Filled – filaments are made by mixing a fine metal powder into a base material, providing a unique metallic finish and added weight.
  • Wood Filled – Wood filaments combine a PLA base material with cork, wood dust, or other derivatives, giving the models a real wooden look and feel.
  • Carbon Fiber Filled – Carbon fiber filaments contain short fibers that are infused into a PLA or ABS base material to help increase strength and stiffness.
Material
Type		Price per 1KgNozzle Temp.Bed Temp.Heat Bed RequiredPrint Difficulty 1-10 HardDurability 1-10
PLA$10-$40190-230°C45-60°CNO1
ABS$9-$40220-250°C95-110°CYES3
TPU
(Flexible)		$18-$60225-245°C45-60°CNO5
PETG$22-$80230-250°C75-90°CYES2
Nylon$19-$60220-270°C70-90°CYES3
Polycarbonate$18-$60260-310°C80-120°CYES4
Polypropylene$19-$60220-250°C85-100°CYES7
PVA$40-$110185-200°C45-60°CYES5
HIPS$19-$30230-245°C100-115°CYES4
ASA$38-$50235-255°C90-110°CYES2
Metal Filled$50-$120190-220°C45-60°CNO3
Wood Filled$25-$55190-220°C45-60°CNO2
Carbon Fiber Filled$30-$80200-230°C45-60°CNO2
Material TypePrice per 1KgNozzle Temp.Bed Temp.Heat Bed RequiredPrint Difficulty 1-10Durability 1-10

Different types of 3D Printing materials for SLA Printer | Resins

There are about 6 different types of resins for SLA printers that we will cover in this post.

  • Standard – is the most commonly available resin type and can be used for non functional or display models at low cost and quality is OK.
  • Modeling – High detail and very expensive.  Great choice to be used to create a model for a casting.
  • Water Washable – is very similar to the standard resin. Main difference is it does not require a solvent for cleaning up.
  • ABS Like – is more durable than standard resin, has a little flex to it, and is more difficult to work with. Can be used to print functional prototypes.
  • Eco / Bio – is less odor than most but still does require solvent to clean up.
  • Tough / Engineering – is expansive but the best choice if you wish to make functional parts.

If you found this post helpful please share with others and subscribe so you don’t miss out on my latest post. Please like, comment and share with us you 3d printing experience. Be sure to check out our download tab above for models and slicer profiles.

Happy 3d printing!

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What is 3D Printing?

What is 3D Printing?

3D printing is a way of creating three dimensional (3D) solid objects. 3D printing is done by building up the object layer by layer from a digital file. Usually, 3D printers use plastic, because it is easier to use and cheaper.

3D printers are useful because they can make new objects very fast and detailed. This results in a much faster turnaround times for product development. Means an engineer can test a lot of new designs and not have to wait for someone else to make them. They are also useful for fixing parts made of plastic, and for making toys, figures, and models. There are a lot of people who print 3D objects at home.

3D Printing

3D printing technologies have started to change the way we create tools and objects within the current industry manufacturing processes. It has revolutionized the way tools and objects like toys, eye wear, some forms of footwear, design, small furniture, clothes, and even body parts are created. It also is used in industrial manufacturing such as creating manufacturing tools, forms of different prototypes, and even some functional end-use parts.

3D printing is a part of a manufacturing process that is known as Additive Manufacturing, a process where an object is created by the addition of material, layer after layer according to the need and design. Unlike a subtraction process where you take away the parts you don’t need like carving out a 3D object out of wood or cnc machining would be a good example.

Benefits of 3D Printing

3D printing allows the engineer to create complex parts for prototypes, and it does so at a low cost compared to the other factory methods available like molding, forging, and sculpting. It does so in a 3D dimensional manner, unlike printers that only print on a certain surface, it is able to create objects and add details to the objects it is creating. In this way of creating objects, there is very little labor involved in the creation of objects which cuts down on the cost of creating these objects in masses.

Its low-cost production and maintenance have provided small businesses a great way to improve and make the objects required for their business at their desired price.

Types of 3D Printing

There are different types of 3D printing processes that are used for different purposes depending upon the required results, materials, and the scope of operation. Most common types include,

Vat Photopolymerization: is a 3D printer that has a photopolymer resin container in its method of creating 3D objects. Resin is scanned with the help of a UV light that passes through as a source to get the scan.

Stereolithography is also known as SLA was invented a long time ago in 1986 by the founder of 3D systems Charles Hull. It actually uses a photopolymer resin as well as an ultraviolet laser for the layer to be created and measure correctly one at a time for accurate readings. This laser beam traces the pattern on the surface of the resin liquid in a cross-section pattern. Then it proceeds further on creating the object depending on the orientation of the object that needs to be printed. It does require support structure in the process of 3D printing the object.

Digital Light Synthesis: is at the heart of CLIP process technology in which, a light that comes from LED light engine projects a line for UV images that shows a 3D printed part in a cross-section. Once the light has already created the shape of the desired part, the curing process which is programable does the next baking part in an oven that creates the mechanical properties of the object. Material jetting is a process where the material can be attached in droplets with a small nozzle and it works like an inkjet paper printer but it applies layer after layer to build and then it is

hardened by the use of UV lights. Binder jetting used two types of materials, one is a powders base and the other is a liquid binder in the building champers. Power is spread and the binder is applied with the nozzles that intact like particles like glue with keeping in mind the shape that it is trying to build for the printing. It was created in 1993 in MIT and has evolved ever since into mass production in the industry.

Fused Deposition Modeling: or simply referred to as FDM uses a sort of plastic filament which is unwound from a spool and supplied to the nozzle which can turn the flow on or off. It then is heated for the material to be melted to be applied with the needs. It is used to create the object as it is hardened right after it is put on the surface from the nozzle.

Selective Laser Sintering or SLS is a process where powdered material is fused in smalls parts like a powder and is used to create a 3D desire object by scanning the dimensions of the object and later used layer after layer and grow its thickness. This process is applied one after the other to achieve the desired object.

How 3D Printing Works?

In recent times, smaller and consumer-friendly 3D printers are being used in small businesses and homes to create their required items independently. The first step towards creating a 3D printed object is to create a blueprint or also referred to a 3D model of that object in order to be printed with the help of the 3D printer. It is created through software like blender, solidworks, autodesk fusion 360 and other alike, you need to have the knowledge of the software to be able to design models efficiently.

There are many platforms that help you get 3D rendered model files that another consumer has already created and uploaded for others in the community to use. If you can’t design something common, there are chances that someone who has built something similar with their 3D printer has uploaded the content for you to use and print.

After you are done with creating a needed design, it is time to go put that into your printer. Printers like MakerBot Replicator 2 Desktop 3D Printer use renewable plastic material on their back which is like a string and is flexible. This material is used to create objects in 3D with the help of the printer precisely put the material in a layer on top of other layers.

When the printer gets the data it requires to print, it takes the material and melts it, and then uses that liquid to make layers of the objects on its plate which cools the material, resulting in the creation of the object. It adds the material one layer at a time and it has to do so to make sure the object that is it is trying to create is created with the right dimension according to the data. It creates that fully formed structure with layering and understanding the dimension of the design.

Use of 3D Printing

The material or filament used in their 3D printers is mostly plastic to make toys and some household items but other materials used can also produce some great results. Some medical use for these 3D printers has also shown incredible results. It still is in a testing process but can yield great results in the coming future if the experiments are successful.

The food industry has also been able to use 3D printers to create a very charming looking treat to catch the eye of more customer and appeal to kids as well. Something like the cupcake decorators rely on 3D printing to do their decorations.

To the credit of the evolution of technology in recent times, giant 3D printers were able to print 10 houses in China in only a single day and it cost less to build these houses than the average cost of a home in China.

This shows how time-efficient and cost-effective these printers can be if they are put to use more carefully.

3D Printing in Giant Industries

Its market is predicted to reach around 3.4 billion dollars in the next 10 years.

3D printing is part of giant industries that are crucial in running the world today. In Aviation 3D printers help in creating cobalt-chrome fuel nozzles for aircraft engines. These printers can produce 600 items per week only on few printers. All these parts are used for the LEAP engine that is the best-selling engine for the aircraft and aviation industry as of today.

Since 3D printing helps in the reduction of waste in the process of making objects, aircraft parts that are made of titanium are created with a 3D printer now to not waste the expensive material and cut down on the cost of making these parts.

Printers just like the Norsk Merke 4 use a metal wire and then melt it in a Rapid Plasma Deposition process which is a form of Directed Energy Deposition, this can help in creating 10kg titanium in an hour or so. A part that is created with 20Kg of titanium for only 2Kg results, 3D Printing can do it for 6Kg wire and not make a lot of waste, its left-over material and also be later used for different parts as well.

3D Printing in Consumer Products

Consumer products are the mainstream use of 3D printers. Footwear is one of the mainstream uses, Adidas prints its mid-soles on 3D printers, and they have printed 100,000 in only 2018 and this number has increased significantly over the years.

Eye wear is another trend that has adopted the wide use of 3D printing technology. 3D printing is suitable for eye wear products because of its precise and calculated creation of the products according to the individual instruction given to it by the design. A 3D printer can make lenses for glasses. Traditionally glasses are made from a block of the glass of which 80 percent goes to waste after craving out a lens from the block.

We need many lenses and many of the people need replacements so 80 percent is a big number for the waste being created by the traditional methods of creating lenses by carving out the lenses.

Labs also need to have many custom lenses for their clients to fit their individual needs. 3D printers have evolved enough that making something like an ophthalmic lens is quite achievable and done so in mass production as well as custom orders.

In this method, there is also no waste that was previously being created due to craving out the lens from a block.

There can also be customized lenses that show better clarity up close and some better vision for the clients who need far-sighted lenses as well.

Jewelry and other fashion items are also mass-produced by 3D printers today, these are made directly by designing a custom 3D printing files and then printing it.

It can also make custom molds to be later used for the creation of the jewelry, the possibilities are endless.

3D Printing in Medicine and Healthcare

The Healthcare system has seen great advancement with the help of 3D printing as well, implants for body parts are often created with 3D printers according to the fit size and dimension of the individual needs.

GE Additive has been able to make more than 100,000 hip replacements in the last decade. Some of the Delta-TT Cup implants are working just fine after 10 years of the first implant due to its trabecular structure that helps incompatibility of the titanium which helps with bone growth into the implant.

Materialize and Phonak have done a great job in making use of the 3D printing abilities to help in creating hearing aids. Over the last 17 years or so, most of the hearing aids that were made for the consumers were printed on 3D printers. It was all done with the help of Phonak’s revolutionary Rapid Shell Modeling which was introduced to the world in 2001.

Before this technology and methods became widespread for the industries, hearing aids were made with 9 steps that required a lot of effort and it involved sculpting and mold making which often resulted in miss-fittings and loose hearing aids.

Silicone is used to take a technical scan of the ear canal; it is scanned in 3D and some minor tweaks are made for fitting and the resin 3D printer is set for the pint to be made.

There is another process where electronics are fitted into the design that is essential to its nature then it is shipped to the consumers for use.

Due to the ease of making these hearing aids with the use of 3D printers, thousands of hearing aids are made each year with the help of this revolutionary technology. It helps thousands of people in hearing that might have had to face problems with fitting and had to buy expensive hearing aids for their needs.

This process creates hearing aids in masses and then it also makes them cheaper so people can easily afford them.

Dental health care has also been benefitted from the 3D printing technology that is widely available as of now.

Clear teeth aligner is perhaps the most 3D printed molded available in the healthcare industry. These aligners are mostly made from both the resin and the powder-based processes of 3D printing available for mass production, material jetting is also used for the creation of such required objects for Dental use.

Dentures are also directly created by 3D printing with the surgical guides in the process.

Bio-printing is being adapted but slowly, as of the last decade biotech firms are investing heavily into tissue engineering applications that help in the creation of artificially made organs and body parts that use inkjet techniques.

3D Printing in Education

The education sector has seen wide use of 3D printing technology as students use these printers to materialize their new ideas and different ways of problem-solving.

Getting degrees in additive manufacturing is not very common and a new field of study, 3D printers are quote commonly used in academia. There are many courses dedicated to the craft of 3D printing that help in learning and understanding the craft.

These are taught in the form of courses like CAD and 3D design which later on are applied to the 3D printing stages.

3D printers are used for the sake of prototyping. Specialization in additive manufacturing are acquired through special architecture and design degree and printed prototypes are very common to use in the fields of arts, fashion as well as animation studios in the universities.

Benefits of 3D Printing

3D printing has many benefits such as 3D printing helps in creating products at a very low cost and are friendly for the small businesses that want to work independently on their own.

3D printing is also environment friendly, since it only needs the material required to print, there is no waste material left in industrial manufacturing. Since there is less waste, it helps in saving the environment by cutting down on the need for too much material, and later no waste is dumped on the earth. This results in less pollution and waste being created by the industries today.

In short 3D printing has many benefits that can be had by using a 3D printer in the masses for industrial production. The waste management has been one of the primary issues for the environment and the pollution that is created through the industrial waste.

3D printers and their use help in creating less waste which adds significantly to the less pollution that is resulted from the waste created by the industrial production and mass productions.

Conclusion

Thank you for checking out our post and reading to the end. We are very hopeful that this has been a very helpful to you and that you could learn something from it. Please share with us your knowledge and experience in the comments below.