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Tag - 3d printed filament

How has 3D printing evolved over the years?

3D printing is the construction of a 3D object from a digital or a CAD model. The phrase "3D printing" can direct to various processes where the material is placed, joined, or consolidated under to make a 3D object, with material beings like powder grains or liquid molecules added together, typically tier by tier.

On the other hand, 3D printing filaments are semi-rigid feedstocks for consolidated depositions modeling three-dimensional printers. 

From reducing prices to increasing effectiveness to stoking innovation, a lot of people are thrilled about the effect that three-dimensional printing will have on the fate of manufacturing. Anyhow, the real truth is, 3D printing by now has made a substantial impact on the manufacturing industry.

Since the development of stereolithography, 3D printing has passed more than 3 decades of constant research & development. 

Let’s take a look at how 3D printing has evolved, and let’s see how the phenomenon commenced & how it has helped in the evolution of the manufacturing industry.

Setting up the Foundation in the 1980s  

Three-dimensional printing was just only a notion in the 1980s. Hideo Kodama of the NMIRI (Nagoya Municipal Industrial Research Institute) in Japan found a way to print sheets of material to build a three-dimensional product in the year 1981. But unfortunately, Hideo Kodama was unable to get the approval for the license of the technology. 

In the interval, in France, the FGEC (French General Electric Company) & CILAS, a producer of optical technology & laser, came up with a way to build three-dimensional printed objects. Nevertheless, the companies did not see a utility for the technology and abandoned the inventions.

But finally, in the year 1986, Charles Hull, an engineer from America, developed a model for a process called stereolithography.

Charles Hull made use of photopolymers, which are also called acrylic-based materials, to change from liquid to solid, making use of UV lights. He also patented the stereolithography printer & other companies followed the action. Therefore, Hull is generally known as “the father” of three-dimensional printing.

Along with stereolithography, another 2 key technologies were licensed in this period as well. 

They are SLS (Selective Laser Sintering) & FDM (Fused Deposition Modeling). SLS uses powdered grains to make three-dimensional printed products, while FDM uses warmth to three-dimensional layer models. These three-dimensional printing prototypes set the base for 3D printing.

More Enactment & More Technologies in the 1990s

With the base of the technology has already been created, many companies started testing, enhancing, and, eventually, commercializing three-dimensional printing.

In the year 1994, various new 3D printers appeared on the market, which includes the ModelMaker launched by Solidscape that banked wax stuffs using an inkjet printhead, which was more prevalent in traditional printing.

New methods, like micro casting & sprayed materials, enabled 3D printing to be utilized for metals, not only for plastics.

Later in the year, 1997 AeroMat developed the 1st 3D metal printer by using LAM (Laser Additive Manufacturing).

However, the invention still has a sky-high cost. This resulted in adoption limited to high-price & less-volume commodity production. Hence, it became a plain fit for modeling new merchandises in the automotive, medical, and aerospace industries.

Following the inventions in the previous few years, Objet Geometries created the first three-dimensional printer in 1999. It can print both hard as well as soft materials to emulate various material properties in a single object.

In the same year, WFIRM (Wake Forrest Institute for Regenerative Medicine) scientists printed synthetic frames of a human bladder & then encased them with the cells of patients.

Three-dimensional Printing Became Conventional in the 2000s

Three-dimensional printing kept evolving with new methods & materials. At the same time, in the field of medical, scientists and new companies manufactured a functional model kidney, made a prosthetic leg & bio-printed the 1st blood vessels utilizing only cells of humans. In the field of manufacturing, companies began to solve inventory shortages & impacted the working of people.

Even though there were repetitive changes & innovations related to three-dimensional printing during the early decade, the year 2005 made 3D printing to move on the course to become more conventional. A lot of early patents started to expire, and entrepreneurs & inventors sought to take profit.

In 2006, the first Selective Laser Sintering machine became cost-effective and paved the way for on-demand production of industrial parts.

The very next year, Objet launched the Connex series of three-dimensional printers, which allowed consumers to merge 2 different materials in one print job in a range of combinations that make fourteen different stages of texture, hardness, and shading in a single object.

Dr. Adrian Bowyer, a professor from England, made his mind to make a cheaper 3D printer. By the year 2008, Bowyer’s “Darwin” printer effectively 3D printed about 18 percent of its own components, with the device costing less than 650 dollars.

In the following year in 2009, the FDM license fell to the society domain, which made a lot of companies to create various kinds of 3D printers. Hence, the technology became further accessible.

3D printing started making conventional headlines when concepts like three-dimensional printed kidneys & three-dimensional printed limbs were compelling & potentially powerful. This was when the 3D printer filament started getting popular.

The Maker Movement in the 2010s

As the price of 3D printers was declining continuously, the demand for the printers began to rise and became a lot commonplace in houses as well as in businesses.

On the production facility, manufacturers started leveraging three-dimensional printing in a lot of ways. 

Parts of the machine could be quickly repaired, & shortages in inventory could be combated easily. 

By 2014, the printer industry made more than a billion-dollar in revenue. But alongside the excellent financial effect of the technology, three-dimensional printing also had an effect on how people work.

Now people were free to build & create new merchandise on their own while not relying on technology firms or companies.

The development of DragonFly Pro by Nano Dimension in 2017 became the first entry to the advanced manufacturing of 3D printers. The DragonFLy Pro is a highly precise inkjet ousting system which allows simultaneous three-dimensional printing of silver nano-particle ink & insulating ink.

According to a study by A.T. Kearney, in 2017, three-dimensional printing was predicted to experience a CAGR (compound annual growth rate) of 14.37% to nearly 17.2 billion dollars between 2017 & 2020. 

Conclusion: 

It has been very inspirational to see how 3D printing has evolved and how the producers across every industry are working collectively to configure the economy and industry. As the three-dimensional printing society continues to develop, everyone is curious to know how the remaining of the manufacturing industry develops too. And yes, the 3D printing filaments market has become all the more popular with time. If you are in search of a 3D printer filamentthen you are in the right place to buy it. Here at MakeShaper, we are providing the best 3D printed filament for your 3D printers. Here we are working continuously to produce as much as 3D printing filaments we can. To know more, you can contact us at 1-330-753-0100, or you can write to us at makeshaper@villageplastics.com.

3D Printing and Medical Sector: How have things changed in the healthcare front?

With each passing year, 3D printing is offering more and more benefits to the healthcare front. The medical sector is becoming more accessible and less expensive, thanks to 3D printing! However, most people believe 3D printing has only brought engineering changes, mechanical parts, and designing prototypes. Little do they know that 3D printing filament can now be used to create machines used in hospitals and even for printing organs. Yes, you’ve read that, right!

Researchers were able to print a bladder successfully. Experts say that the day is not far away when essential organs could be printed using 3D printing in the field of medicine. Now the doctor could provide treatment to the patient in several ways. This guide is solely dedicated to informing people about the drastic changes that 3D printing has brought in the healthcare front.

1. Leadtime

The process to manufacture new tools usually take up a lot of time and money. No matter whether it’s outsourced or created in-house, the process will be time-consuming and costly. Such a long lead time will prove to be life-threatening during such critical situations. In healthcare, 3D printing provides engineers and designers with tools to iterate and make designs as quickly as possible.

Thanks to the accuracy of 3D printers! Now the tools’ custom parts can be easily designed and sent for printing within a couple of minutes. By following the surgeon’s direction, it’s possible to imitate a tool’s design within a couple of hours. Undoubtedly, 3D printed filament has accelerated the process of design development. Also, 3D printer parts can be used by manufacturers to support early commercialization or clinical trials while optimizing the final design. As compared to traditional methods, the time required to print parts is much lesser in 3D printing.

Read: What are some of the major applications of 3D printing in the medical industry?

2.  Customized Implants

Thousands of bony parts of a human body can now be replaced with 3D printed parts such as hips, spine, knees, ankles, and skull segments. Thousands of such parts are implanted each year, and the 3D printing promises to produce more and more printed parts or organs in the future. Even though the Food and Drug Administration doesn’t approve of it, some replacements have been taken under the FDA’s emergency clearance.

For instance, a tracheal splint was designed for an infant at the University of Michigan, who was suffering from a weak trachea that collapsed despite conventional treatment. Therefore, the bioengineering-surgical team used the CT scan to print a 3D splint to wrap the weakened trachea. Implants like these eventually get absorbed when the trachea repairs itself.

3. Affordable Prosthetics

In developing nations, the 3D printed prosthetics are often manufactured at very low-cost. People who had no hopes of receiving such devices are now leading their lives successfully with prosthetics made using the latest technologies. Organizations like Not Impossible and ROMP use 3D printing to develop high-quality, low-cost orthotic braces and prosthetic limbs for patients who didn’t have any hope of receiving such devices otherwise. However, it is now possible. Thanks to 3D printer filament!

E-Nable encourages everyone across the world, including engineers, to build arms and hands using designs made by E-Nable on their 3D printers during their leisure time. The organization’s estimation reveals that it has manufactured around 1,800 hands until now, mostly for kids. However, it believes that 1,800 more hands have been manufactured that falls out of their documented process.

4. Biomaterials for Complex Organs and Organ Structure

The emergence of 3D printing has proved to be a driving force for doctors or other medical staff to develop human organs using biomaterial. Suddenly, it seems like it’s no longer a dream, and organs can now actually be printed. Taking baby steps, the researchers began with the development of simple structures like cartilage, skin, bladder, blood vessels, cartilage, and parts of other complex organs, like heart valves. To be honest, the experts have made significant progress.

The real challenge in creating organs lies in printing blood vessels and printing organs together. Apart from that, one cannot ignore that an organ is not just tissue, but it might also be referred to as memory. Therefore, the heart doesn’t just have many cells; it also has tissues that support other tissues that lead to thousands of heartbeats.

5. 3D printing Labs

One of the immediate trends is using 3D printing in the hospitals directly. However, until a few years ago, only a few hospitals were doing 3D printing directly. Now, hospitals from all across the globe are establishing 3D printing labs to allow healthcare professionals to incorporate the use of 3D printing filament into a regular working day. Justin Ryan, a research scientist and biomedical engineer at Phoenix Children’s Hospital’s Cardiac 3D Print Lab, has produced 300 hearts or more during the last four years.

While operating on a complex organ, doctors usually practice customized, and 3D printed models to expect a promising surgery outcome. Practicing beforehand will make sure the surgery successfully gets over within much less time. Also, the rate of mortality and morbidity will be drastically be reduced.

Conclusion

Certainly, the future of medicine lies in the hands of 3D printing. The extensive use of 3D printing has also provided a boost to the market of 3D printed filament. In the healthcare front, medical experts use 3D printing to research and practice new procedures and treatment, provide patients with new prosthetics and organs, and hundreds of other applications. Recent developments in 3D printing for healthcare has provided us with stronger, safer, and lighter products, lower costs, and decreased lead times. Patients are provided with treatments or products that are specially designed to suit their anatomy. We are not much far away from the day when we could replace our original organs with 3D printed organs.

If you are in the lookout for good-quality 3D printer filament, then you have come to the right place. MakeShaper deals with filaments that are tested, manufactured, and engineered in the United States. The brand holds quite a reputation for being the best dealer of 3d printing filaments. And we strive to retain this reputation by providing our clients with the exact consistency that we have been providing so far. In order to meet all your quality requirements, we have the manufacturing capabilities to deliver custom shapes, profiles, and sizes. We are 100% confident about our products and stand behind all the products we manufacture with Satisfaction Guarantee and Product Quality. We constantly keep updating our products so that you can deliver only the best prints to your clients without failure. Filaments of all kinds of configurations are available on our site. So, what are you waiting for? Buy from us and get started with your printing company! If you have got further queries, you can contact us via mail at makeshaper@villageplastics.com or give us a call at (330) 753-0100.

The Growing Influence of 3D Printing Technology on Art & Creativity

3D printing is continuously touching new fields from technology to manufacturing industries to medical industry to education and more. It has now made its way to the world of art and creativity. Thanks to affordable 3D printed filaments, people can now print art pieces and give a 3D structure to their creativity.

Just like in every other industry, 3D printing has made the world of art and creativity more efficient in many ways. It has reduced the limitations on creation and offers a unique opportunity to the artists and creative people. Whether it’s a company or an individual, they can use 3D printer filament to create things that are unique, durable and beautiful all at the same time.

3D printing technology has definitely changed the world of art and creative fields. The article takes a look at the growing impact of the 3D printing technology and role of 3D printing filaments.

The New Age of 3D Printing

In the last few years, especially in the last one decade, 3D printing has emerged as a disruptivetechnology that has changed the things are now manufactured or created. Companies are now using the 3D printers to create things in less time than what it takes via traditional manufacturing method. The same goes for the art and creative field. Creative world is already a step ahead of everything. Artists think and imagine things that are unique and futuristic. Now, the 3D technology has made it possible to give those unique ideas a clear image.

What seemed impossible a few years ago is now totally possible due to the 3D printing technology. Artists can transform their ideas into concrete works of art. They can now use the technology to create new and unique objects with ease. The new technology promises to create an environment for aesthetic innovation.

Artists can use the 3D printing filaments to create themost exciting designs based on their imagination. These filaments are easy to use, affordable to buy and can help create the best designs ever.

How 3D Printing is Helping Creative Artists?

3D printing is relatively new for the artists compared how it is used in the other fields. But the art world is slowly picking up the 3D printing technology and using it in the creation of art. Artists and designers in various fields, such as filmmakers, visual art creators, sculptors and others, are using the new technology to their advantages.

Most prominent of all are the futuristic artists and creative professionals. They have been using the 3D printing for a while now and has inspired other creators too.

Here is how 3D printed filament and the printing technology is changing the world of art:

  • Formation of New Art Form

Artists and visionaries are always a step ahead of everyone. They think of ideas that are way beyond what their counterpartsknow. Artists in particular have ideas that cannot be brought to life as there is no technology for it. But the arrival of the 3D technology has made things easier. Artists can now create designs and forms that were impossible to create a few years ago. 3D printing filaments can be used for creating the most complicated designs with ease.

  • Customization

The current scenario around the world is all about customization. You don’t have to settle for similarity when you can have unique designs. Filmmakers, game designers, and set-designers are using the 3D printing tech to create unique designs and give wings to their imagination. Companies, like the jewelry makers are now using the 3D printing method to create beautiful and unique designs as per the customer’s specification. The same way, artists can now customize their designs without thinking about the technological limitations.

  • Making Copies with Ease

Artists can create unique pieces, but when it comes to replication, it can be very difficult. The same designs or form cannot be achieved with hands as there always be some visible differences. 3D technology has made things easier. It can print multiple copies of the same designs over and over again with the same results. The artist and creative professionals can now create things and make copies for selling or for other purposes without any hassle.

  • Endless Possibilities

3D printing has made it possible for the artists to create things and the possibilities are endless. They are no longer limited by technology, which means they are free to create things they imagine. Even the most complicated designs can be printed using 3D printed filament and a printer. Filaments come in various colors, thickness and materials that allows artists to create unique designs with greater ease.

3D Printing Applications in the Art and Creative World

The 3D printing technology has already set things in motion. There are a number of examples of how its been used for creating art pieces Most complicated designs can be created using the 3D printers and you will be surprised by the quality, precision and ease of printing those designs.

Here are some examples of 3D printing application in art:

  • Visual Art

Visual arts are the perfect example for illustrating how the 3D printing technology is used for creating designs and forms. You can easily find 3D printed art forms, illustrations, sculptures, objects and more. They have been created by artists who have a unique imagination. Creating complicated designs was difficult and time-consuming. With the new technology, artists can use it to create unique pieces without any hassle. All they have to do is create a 3D model on the computer & the printer will use the 3D printer filament to create those designs layer by layer. And, it can be donein few hours rather than days.

  • Theatre and Films

Movie makers, theatre artists are some of the artists who use the 3D technology. These are the most versatile field that involves everything from costume to set pieces to props and more. 3D printing has made it possible for them to create unique designs without any hassle. The don’t have to worry about the technological limitations. They can create any type of designs they want. In fact, they can print buildings in the form of set pieces for their acts. This has revolutionized the way the 3D printing technology is now used. They can also print some costumes and shoes for the story. These items are durable and safe to use.

  • Printing Creative Objects

Have you ever wondered how it would feel like printing music? Yes, that’s correct, you can print the music with the help of a 3D printer. Create the music on the computer, scan it on the CAD to create a 3D model and print it. Your music will come alive. Likewise, you can create designs like a 3D house painting, and other objects and create the most beautiful pieces. 3D printing filaments have made it possible for the artists, students and people in general to print things they want.

The Bottomline

3D printing has infiltrated the world of art and creativity and has made things even better. The new technology is now being used to print art forms and designs that were hard to create a few years back. The new technology has made the process of 3D creation easy and efficient in many ways.

If you are looking for high-quality printing filaments, you are in the right place. Makeshaper is your one-stop destination for finding the best quality, 3D printing filaments for all your art projects.Browse our collection here or call us for more information - 1-330-753-0100.

A Sneak Peek into the History of 3D printing and its Evolution

3D printing is not introduced in recent times! But, we can bet on it that not all of you knew about it, did you? In this article, we are going to talk about the history of 3D printing –its origin since the 1980s to what it is currently. So make yourselves comfortable and take an exciting reading ride with us to know the details about 3D printer filament.

 In reality, Fused Deposition Modeling (FDM) technology gained popularity and impressed the general public in 2009 because it could be well exposed through the media. As a matter of fact, most people still believe that FDM is the one and only additive manufacturing technique that has gained the eyes of the audience recently. But, let us tell you that FDM is not even the first 3D printing technique that was introduced, and the origin of 3D printing began in the 80s.

Here we will give you a quick timeline for 3D printing, starting from the 80s to the current scenario. Let us tell you that the history of 3D printing is quite fascinating. The origin of the first printing machines, the expectations that everyone had, and the several 3D applications used for printing are flourishing in this era. However, let us take a step back and look at how all this began in the first place.

The birth of 3D printing: 1980s

Although the concept of 3D printing was introduced in the 70s, the first experiments on the subject did not start until the early 80s. The first baby steps towards the revolution of printing were taken by Dr. Kodama, who developed a rapid technique for prototyping. He was the one who made the initiative to describe a layer-by-layer procedure for creating and manufacturing the ancestor of Stereo lithography or commonly known as SLA.

An SLA: is a resin that possessed photo-sensitive properties and could be polymerized by using UV rays. However, Dr. Kodama failed to register the patent requirement prior to the deadline. In 1986, a Charles Hull, submitted the first patent for SLA as the technology had intrigued him. The 3D Systems Corporation was a brainchild of Hull, which was founded in the year 1988, which later released its first product to the market under the name of SLA-1, which would then evolve to become 3D printing filaments.

While SLA was commercially introduced into the market, at the University of Texas, SLS (Selective Laser Sintering) technology was sent out for its first patent for 3D printing technology by Carl Deckard. In this method, the powder grains were technically fused by using a laser. And the Scott Crump, who co-founded Stratasys Inc., went ahead and sent out a patent for FDM (Fused Deposition Modeling). As a matter of fact, within ten years of time, the three different models of 3D printing technology were patented, which gave birth to 3D printing.

The emergence of Main 3D printers, CAD tools, and manufacturers: 1990s

Now that we have already discussed the basics, it’s time that we talked about how additive manufacturing evolved. In the 90s, the 3D printer manufacturers emerged, new technologies were taken up and polished to perfection. The 3D modeling tools started to develop as well, which further took additive manufacturing to the next level.

EOS GmbH was discovered that led to the creation of the first EOS “Stereos” technology in Europe for production applications and prototyping of 3D printers. The 3D printed filamentthat we use today has undergone ample transformations to offer us what we have today! EOS Stereos’ industrial quality today is known worldwide under the flagship of SLS technology for metals and plastics.

In the year 1992, after the patent issue of FDM to Stratasys, many 3D printers were developed for an individual as well as professional use. Between 1993 and 1999, the primary roles for the 3D printing sector started emerging with the inculcation of several techniques. Meanwhile, we could witness that CAD tools were taking the path of development, which allowed creating the 3D models.

Media Visibility Gained by 3D printing: 2000s

In 2000, the millennium was introduced to a kidney that was printed by making use of 3D printing technology. However, its transplantation was only done after 13 years of conducting appropriate research. The kidneys that were printed through 3D printing are now functioning correctly, and the researchers have further accelerated the experiment to enhance the opportunity of transplanting organs quickly and efficiently.

2004 was marked as the year in which the initiation of the RepRap Project took place that consisted of the self-replicating 3D printers. This might come across as a surprise, but with the use of 3D printing filaments,we can even print a 3D printer. This open-source of the project gave rise to the spreading of FDM 3D printers and desktops, and the technology gained ample popularity in the maker’s community.

While in 2005, Zcorp introduced Spectrum Z510 to the market; in 2008, 3D printing achieved even greater heights by printing a prosthetic limb for the first time. This fantastic medical 3D printing project could then be incorporated in the production of all biological parts of a limb. In the present scenario, 3D printing and scanning medical orthosis and prosthesis are becoming a faster and cheaper process and exposing the patients to more significant opportunities to get prosthetic limbs. These 3D printed prostheses are more adapted and optimized with the patient’s morphology. Also, due to additive manufacturing, new opportunities concerned with the mass-customization are being initiated.

The Year of Innovation, Hopes, and Visibility for 3D print: 2010s

In recent years, 3D printing has gained ample importance. With the expiration of the FDM patent, the first years of this decade have proved to be the years in which 3D printing flourished. Additive manufacturing gradually became an affordable and real production and prototyping technique for the world of businesses, which gave way to newer possibilities.

In the year 2013, President Obama talked about 3D printing in his speech for the State Union as one of the significant issues that needed to be addressed in the future. Today 3D printing has been imprinted in the minds of the general public and is being included in the decisions made by the policymakers as well. The technology is rapidly progressing, along with the use of technology. The small, as well as big companies, are taking advantage of this situation by making use of 3D printer filamentfor the creation of astonishing projects.

They include 3D printing in their innovation, production, and iteration process. Did you know that in 2010, a 3D printing car was produced? Yes, you read it correctly! Urbee was the first 3D printing car to be created then. Eventually, 3D printed car is becoming a reality, while additive manufacturing is taking up significant space in the automobile sector. Perhaps, from the evolution of 3D printing technology used for the making of the tooling process to the creation of 3D printed cars, additive manufacturing has proven to be very useful on several levels. It has also helped the challenge takers and technology improvers to try out new projects.

3D printing technology is still progressing and evolving. Also, newer types of 3D printers with additional features are regularly issued; they print faster and can furnish efficient results while giving access to the innovative 3D printed filament. Carbon us further working towards the development of CLIP (DLS), whose ultimate aim is to process more accurate and faster results ever than before.

Bottom Line:

Through this article, we have been able to witness the revolution of 3D printing influencing significant sectors such as –medical, automotive, and architecture. But, there are still several fields in which 3D printing can always evolve. 3D Bioprinting with the use of 3D printing filaments is becoming a significant sensation in the arena of medicine. The limits of 3D printing are still higher, and the niche is transforming in every step. Now that you are aware of the history and evolution of 3D printing, you can work towards contributing to the field in a much better way.

Are you looking for a reliable online source that deals with 3D printer filament? At MakeShaper, we deal with the highest quality of products. We are here to help you out with your queries related to the purchase of 3D printing filaments. You can also take some time to look at the variety of printing filaments that we have to offer you at MakeShaper.

 You can choose from PVA Filament, HIPS Filament, PLA Filament, Elite PLA Filament, ABS Filament, PETG Filament, or more. You can rest assured after shopping from us that the quality of a product is going to be up to the mark. Also, do not forget to use the Promo Code: VILLAGE20 to avail of a 20% discount on your purchase.

Need your very Own Superhero Collection? Try Out 3D Printing Filaments!

Superheroes have made our childhood very enjoyable yet inspiring at the same time. All of us have imagined growing up and saving the world, just like our favorite superhero did. Even after growing up, most of us still idolize those heroes. Now, 3d printed filament has allowed us to create superhero models for our personal collection. 3D printing has spread like wildfire in the communities of replica and costume.

Action figurines of Captain America, Batman, Thor, Superman, Iron Man, and Batgirl can now be replaced with your face or the face of your choice. What could be more interesting than this? 3D printing has played a greater role in altering the toy business. In this guide, we’ve discussed the ways to find the best 3d printing filament and its role in reforming the toy industry.

How to choose the correct 3D printing filament?

Before you embark on the mission of creating your very own special collection of superheroes, there are certain things you should consider while using a 3D filament.

1-Research

You can easily find several sites, which are entirely dedicated to stringent tests of filaments. A reliable website is a good place to start. You can find the filament that fits your needs through proper research. As a novice, you should always go through what the users have to recommend.

2-Keep them dry

3D printing filaments are very delicate, which is why you need to take proper caution while storing them. If the filament comes in contact with excess moisture, then it gets spoiled really fast. So, avoid storing it in uninsulated, damp places such as a garden shed or a basement. It’s better to get vacuum bags having double zip to store the filaments. In this way, your filament remains dry for a long time and provides you with the best results.

3-Where to buy

Not all filaments are manufactured equally. They vary in terms of cost, durability, and quality. Before you place the order, consider the delivery time and value of the 3D printing filament. Get your filament from renowned companies, as there’ll be no misleading information or fake products. Going through the online reviews help a lot in finding the correct dealer.

4-Try Before You Buy

Buying in bulk might save you some bucks. However, until and unless you use it, you won’t know if it works for you or not. If you find it unsatisfying after buying in bulk, you’ll probably be at a loss. Some dealers allow customers to test the kits, having different varieties of 3D printing filaments so that they can figure out what’s suitable for them.

Start an online business

The classic red and blue spiderman costumer is something we all love and adore. We’ve always imagined ourselves in the costumer of the spiderman, which now can be brought into a miniature 3D version, thanks to the 3D printer filament. Apart from making a collection for yourself, you can sell such models online.

If you find creating models of popular superheroes fun, you can turn it into an online business. As 3D printing has created a dazzle among kids and adults alike, you won’t have a shortage of customers. Adding a unique touch of creativity will make your models even more appealing. You can replace the face of the superheroes with the look of your client. Choose the correct 3D filament to deliver the best possible results to your client.

Before you embark on this mission, there are certain cautionary steps you should follow. They are:

  • Don’t touch the model immediately after its being printed; it might harm you. Please wait for it to come to room temperature. The temperature of the bed might be around 260 degrees C while operating.
  • You can place a small table fan or cooler beside to cool it down immediately.
  • While you’re 3D printing your superhero, make sure the area is well ventilated so that the poisonous fumes don’t enter your lungs.
  • Using high-quality 3D filament is highly recommended as they are less poisonous and don’t cause much harm to your system.
  • Wear protective glasses while printing will protect your eyes from potentially dangerous particles.
  • A room where the 3D printed filament is operated should be only confined to printing and nothing else. Activities like drinking, chewing gum, or eating should be prohibited. Apart from that, wearing cosmetics and handling contact lenses should also be banned.

The ideal option for gift

While your superheroes always appear on the TV in particular costumes and colors, you can always play and be a little more creative when it comes to your personal collection. Not just that, you can also surprise your little brother/sister with a customized model of their favorite superhero. Nothing can be a better gift than an inspirational figure with their face for their birthday.

This doesn’t only apply to the kids; adults too have that soft corner for such figurines. Some consider them as their source of inspiration, while others take pride in owning a customized collection of superhero figurines. Whether it’s someone’s birthday, anniversary, or promotion, you can surely extend your warm wishes by gifting an array of 3D printed superhero models.

Conclusion

Now that you’re aware of all the amazing things offered by a 3d printer filament, it’s high time you should make your very own personal collection instead of buying them from online sites at high prices. Also, having your favorite superhero at your table will constantly remind you to remain focused. Bringing peace, love, and happiness to the world is what our all-time favorite superheroes aim at. Similarly, we all should follow the same path and get inspired by them every day. Using a 3D printing filament is no rocket science, you just have to take certain precautions while using it. What are you waiting for? Get your very own exclusive collection today!

Looking for a reliable source to get 3d printing filament? If so, then go through the varieties of options provided by MakeShaper. All that is delivered to you is of the highest quality. All filaments available at our website are tested, engineered, as well as manufacture in the United States. Our team offers the best product line and includes manufacturing abilities to extrude custom shapes, profiles, and sizes to meet your requirements. Our filaments come in multiple configurations, and hence, offer a great variety to the customers. Be it PLA, ABS, and PETG, and you can access any filament you want at pocket-friendly rates. Get ready to lay your hands on the best 3D printing filaments by buying from us. If you’ve got further queries, you can contact us via mail at makeshaper@villageplastics.com or give a call us at (330)753-0100, or you can also fill up the online application form available at our website for general inquiries.

Jigs and Fixtures with 3D Printer Filaments: The Modern Evolution

The world of manufacturing has successfully graduated from the classic conceptual designing & prototyping to an essential product production resource. The time and cost savings that were once ideated at the desk of the design engineer has now entered the production section.

One such example where the 3D printer filament and the printing technology are being used are the 3D Fixtures & printed jigs. In order to fully contemplate this rapid development, one needs to keep in mind that fixtures and jigs are an important part of product fabrication.

Let us know more about the Fixtures and jigs.

What defines jigs & fixtures?

In common terms, the fixtures and jigs can be used in an interchangeable manner. Basically, these manufacturing components are designed to hold & guide stuff. For the ones that are closer to the manufacturing protocol, they serve as a critical component. A jig can be defined as a custom-tool used for controlling the location or guiding the motion of different parts and tools.

In simple words, a jig can hold the work while allowing the proper movement of the tools in function. On the other hand, a fixture tends to hold the work or product in a given location while allowing for certain modifications that need to be carried out in the piece. At times, the jigs can easily be used in different stations or locations in the workplace. However, the fixtures are designed to operate in a pre-set location.

So, this allows for proper maneuvering and changes during the manufacturing process. Keeping in mind how important they are, it is critical that they should be crafted with top-quality 3d printed filament adding strength and longevity to the make.

Read: The Ultimate Guide to Best 3D Printer Filament

Why use 3D printed fixtures and jigs?

As we decoded earlier, jigs & fixtures are quite important in the manufacturing world. This is due to the fact that they bring in several benefits to the entire process, such as:

  • Production cost reduction
  • Accelerated delivery of products
  • Enhanced quality

The cost reduction in the manufacturing process comes directly from the use of top-quality 3D printer filaments. Before the introduction of 3D technology, fixtures and jigs were being designed & tooled for the traditional variant of injection molding. Today though, they are no more in need. Fixtures and jigs can now be printed within a fraction of time & the overall pricing is drastically reduced.

Benefits of 3D Printed Filament for Jigs and Fixtures

  • Cost:

The prime benefit of using 3D Printed filament for jigs and fixtures is the obvious cost reduction. A good chunk of these savings comes from a reduction in the high costs related to machining. Typically, a fixture or grip can be sent out for machining by someone skilled in operating the CNC machine. This work can take several days in a row for the fixture or jig creation to be completed.

However, with 3D printing technology, after the designing process has been completed, the file can be sent in an electronic form to the nearest printer. The printing process takes a couple of hours and viola; the component for manufacturing is ready to use.

  • Speed:

Another benefit that comes with the use of 3D printed fixtures and jigs is the fact that 3D printer filament makesprinting easier and faster. Machining of the complex form of metal geometries tends to take a significant amount of planning along with help from skilled designers for CAM. This takes up a lot of time and hence delays the manufacturing process.

With 3D printed filament, you can assemble the tools within hours. The 3D printing technology cuts down the overall time by a whopping 92 percent. So, isn’t the use of 3D printer filament a great idea for jigs and fixtures?

  • Materials:

3D printing brings in a range of durable and feature-packed materials that can be expanded over a line of technologies. Properties like flame retardancy, chemical resistance, UV stability, and heat resistance are some of the elements you get with the 3D printed filament for fixtures and jigs.

The parts can easily be produced & finished with the use of different colors& surface finishes. With 3D printer filament for parts manufacturing, you essentially limit the damage that comes during the handling or assembly part.

  • Design Iterations:

The speed at which 3D printing of jigs and fixtures can be done allows the designers' scope of freedom for design optimizations and multiple iterations. With the use of the 3D printed filament, one can aim for ergonomic and complex designs that can be produced easily and comfortably.

  • Weight:

Fixtures and jigs are manipulated by the workers on a regular basis. A good chunk of the materials that are used by the 3D printer filament tends to be lighter than compounds such as aluminum. This helps with the load reduction on the workers while improving the safety components.

  • Better Accuracy:

With 3D printer filament, you get access to better accuracy as opposed to any other manufacturing method for fixtures and jigs. With 3D printing technology, designers can easily incorporate the use of intricate and fine details to the make that fit well with interlocking features.

  • Customization:

The freedom to design intricate details opens up a world of possibilities for the designs in terms of customization. It allows better control over the tasks while further enabling ergonomic support for the workers. This eventually results in better accuracy during task performances. Instead of going for designs that aim towards manufacturability, the engineers can now tailor the manufacturing aids for employees to utilize the same.

  • Digital Inventory:

Most of the traditional service providers for fixtures or jigs creation work for bulk orders. This is good if you need a huge quantity of the same. However, if one or more of your fixtures is destroyed or isn’t the correct shape, what could you do? You surely cannot order 1 or 2 jigs for your needs from the local maker. So, what could actually be done in this case?

The key is to opt for services that are open for any type of 3D printing needs. With 3D printer filament, you can print as per need. This particular digital inventory can be used whenever needed. It allows you a scope to redesign or update your tools in an effective and quick fashion.

Read: Everything you Need to Know About PLA 3D Printer Filament

Conclusion

Even though the jigs and fixtures might seem like a small section of the entire manufacturing process, we need to understand that they matter regardless. Each small component, when put together, makes up for a seamless manufacturing process. This is why having a high-quality jig or fixture created with the 3D printer filament is critical to the business.

Looking for the best collection of 3D printer filament for your jigs or fixture manufacturing needs? At MakeShaper, we house some of the best filaments for 3D printing. Ranging from ABS filaments to PETG filaments, we have it all and more. Our filaments are tested for quality and durability to provide the best print output. To get some quick discounts on your purchase, visit the website today!