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Chinmay Rathi

Chinmay Rathi
In 3d printed products

Largest 3d Printed Object- The Trim And Drill Tool

largest 3d printed object

The world’s largest 3d printed object, 3d printed trim-and-drill tool, is developed by researchers at the Department of Energy’s Oak Ridge National Laboratory to be evaluated at The Boeing Company. It has received the title of the largest solid 3d printed item by Guinness World Records.

largest 3d printed object

ORNL, Boeing set Guinness World Record with largest 3d printed trim and drill tool

ORNL printed the lower cost trim tool in only 30 hours using carbon fiber and ABS thermoplastic composite materials. It will be tested in building the Boeing 777X passenger jet. At 17.5 feet long, 5.5 feet wide and 1.5 feet tall, the 3d printed structure is comparable in length to a large sports utility vehicle. And, it weighs approximately 1,650 pounds.

“The existing, more expensive metallic tooling option we currently use comes from a supplier and typically takes three months to manufacture using conventional techniques,” said Leo Christodoulou, Boeing’s director of structures and materials. “Additively manufactured tools, such as the 777X wing trim tool, will save energy, time, labor and production cost and are part of our overall strategy to apply 3d printing technology in key production areas.”

During an awards ceremony held at DOE’s Manufacturing Demonstration Facility at ORNL, the component was 3d printed on the lab’s Big Area Additive Manufacturing machine. The Guinness World Records judge Michael Empric measured the trim tool. He proved that it exceeded the required minimum of 0.3 cubic meters, or approximately 10.6 cubic feet, and announced the new record title.

largest 3d printed object

Guinness World Records judge Michael Empric measures ORNL’s 3d printed trim and drill tool

“The recognition by Guinness World Records draws attention to the advances we’re making in large-scale additive manufacturing composites research,” said Vlastimil Kunc, leader of ORNL’s polymer materials development team. “Using 3d printing, we could design the tool with less material and without compromising its function.”

After ORNL completes verification testing, Boeing plans to use the world’s largest 3d printed object- trim and drill tool in the company’s new production facility in St. Louis and provide information back to ORNL on the tool’s performance. The tool will be used to secure the jet’s composite wing skin for drilling and machining before assembly.

The trim and drill tool measures 17.5 feet long, 5.5 feet wide, and 1.5 feet tall. It’s comparable in length to a large sports utility vehicle and weighs approximately 1,650 pounds.

Uses of the world’s largest 3d printed object

  • The trim-and-drill tool will be used to help make a wing part on the Boeing 777X airplane, a passenger jet.
  • It will be mainly used to work on the parts of the aircrafts in the future.
  • It will save energy, time, labor and production cost and are part of the overall strategy to apply 3d printing technology in key production areas.
  • The trim-and-drill tool will be used in a new Boeing factory in St. Louis, put to work on the unique wings of the upcoming 777X airliners, which are due to begin production next year.
  • It will be easy to manufacture as it is printable in just 30 hours, which is an impressive time and cost saver, considering the existing metal version currently takes about three months to manufacture.

Read more:

3d Printed Shoes By Adidas: Future Craft 4d

Future Of 3d Printing In India

Chinmay Rathi
In 3d printed products

3d Printed Dress: Synapse Dress

3d printed dress

Intel Design Forum which was held in San Francisco showcased a wide variety of innovations which were beyond imagination.  One such innovative creation that stood out was the 3d printed dress,” Synapse Dress”,  covered with flashing lights. Intel has created this smart dress teaming up with the Dutch designer Anouk Wipprecht.

3d printed dress

3d printed dress- Synapse Dress

The interesting fact about the dress is that it reflects the wearer’s state of mind and displays the lights accordingly. The material used for printing this dress was a mixture of plastic and silicon called TPU material. The entire thing was built in two stages and put up together in the end; the decorations used in the dress also involved the method of 3d printing.

The 3d printed dress also provides flexibility along with comfort to the wearer.  One of the key innovations involved is the ability to read the wearer’s mind. This process is facilitated through a headband that the user wears that tracks the EEG activity and tracks the wave patterns. This data is sent to the receiver which activates the lights according to the pattern. The dress itself runs on Intel Edison Processor, which is solely developed by the Intel Corporation. This 3d printed dress is a first of its kind innovation combining 3d printing and embedded electronics and paving way for next-generation innovative products.

Read more:

Future Of 3d Printing In India

3d Printing Success- What’s The Reason Behind It?

Chinmay Rathi
In 3d printed products

3d Printed Shoes By Adidas: Future Craft 4d

3d printed shoes

The world’s first 3d printed shoes for running was unveiled by Adidas. Adidas, a frontrunner in manufacturing sports shoes has launched its first 3d printed shoes naming it as ‘Future Craft 4d’ by collaborating with Carbon, a 3d printing startup based in the U.S.A.

3d printed shoes

3d printed shoes by Adidas- Future Craft 4d

Futurecraft 4d has a 3d printed sole which was developed through Direct Light Synthesis (DLS) technique. The 3d design was created with Athletic data and combination of the individual gait analysis, weight, and type of sport leading to well-crafted design which is 3d printed from Carbon 3d printers. Through precise control and balance of light and oxygen, the 3d printed sole is of great quality with fine texture and supreme comfort.

3d printed shoes

Sole of Future Craft 4d

3d printed shoes

3d printed shoes

Carbon 3d printers are capable of 3d printing faster than the traditional methods. This quality of this method helped in manufacturing a small batch of 3d printed shoes quickly for a trial run. These set of shoes are meant for athletes as they are athletic shoes. The 3d printed shoes can also be used by the common people.

Futurecraft 4d from Adidas is one of the greatest advancement using 3d printing technology. It is also a great alternative from the traditional injection molding through which the soles are being made. Direct Light Synthesis (DLS) and Athletic data with agile manufacturing can overcome several manufacturing hurdles creating a new era
of Design and Manufacturing.

Chinmay Rathi
In 3d printing

3d Printed Products: Determining Their Quality

3d printed products

With the rapid-spreading adoption of 3d printing technology across all industries, 3d printers have been hyped as a future everyday use machine as the ink jet printer you put on your home table or office desk today. Yes indeed, why should you bother calling the ever-occupied customer services and waiting for two weeks to get a spare knob for your broken dishwasher when you can print it right at home within a couple of hours? The 3d printed products have proved to be of great advantage in various fields. This idea of convenient and free 3d printing at home sounds very attractive, but is it truly feasible?

3d printed products

How does traditional manufacturing works?

The current mainstream technology in the manufacturing process is plastic injection moulding. It takes four main steps to launch a new product:

  • Specification
  • Design
  • Engineering
  • Production

The specification refers to the set of activities to define the high-level and detailed-level of product functions:

  • Dimensions,
  • Mechanical strength,
  • Visibility

In other words, what the products should do to meet the perceived market needs. Based on the specifications, a team of design engineers will go through every detail of the specifications and turn them into a particular product that meets the requirements at the same time can be manufactured in the volume under current machining conditions, considering factors like materials, mechanical properties, software applications, costs, time to produce, etc. Then a group of product engineers will take care of the multi-step engineering process including manufacturing samples, several rounds of the quality check based on the feedback loop, and final products. They also need to deal with issues of cost, producibility, performance, reliability, serviceability, expected lifespan and user features.

After all these steps, the production will begin. But till then there are still possibilities of problems that occur due to neglects of one or two tiny details in the former steps and the manufacturing process will loop back to the beginning of the process.

3d printed products

Product Quality Planning Cycle

Difference of 3d printing from the traditional process

To much concern, there is no major difference. 3d printing shares the main features of any other traditional manufacturing process. 3d printing demands the same level of expertise that involves groups of multi-disciplined engineers. It is therefore unreasonable to imagine that industrial-level production by 3d printing will be performed anytime soon in customers’ houses! Ensuring the consistent quality of final 3d printed products requires both steps 4 and 5 of the APQP process: ensuring product & process validation, then monitoring production performances and applying corrective actions in case of process divergence.

How do we make it possible to make 3d printed products on-demand and directly in where the demand is?

To do so, the quality assurance system shall at least cover two aspects:

  1. Ensuring that the outcome of industrialization (the process of converting a design into a production process) fulfills the design specifications.
  2. Monitoring quality consistency of the 3d printed products in the distributed production process.

During industrialization, engineers outline the optimum set of parameters that will define how the part will be printed by the 3d printer. These include variables such as printing temperature, speed, and tool path. Factors that are taken into account while defining these parameters include part geometry, mating features such as keyways, and the required mechanical strength. This process can be re-iterative to ensure the final print is of the highest quality. Finally, a set of final parts are produced, and their dimensional and mechanical features tested and verified,
before the set of computer instructions or ‘G-code’used to print the part is finalized.

When the part is required to be produced at one of the 3d printing service providers, the final G-code is transferred securely through an online 3d printing cloud service. Before production commences, the printer(s) at the provider is calibrated to ensure that their X, Y, Z calibration, and extrusion state are within acceptable bounds. This is carried out by running a set of calibration tests on the printer(s). The same set of calibration tests are conducted on a daily, weekly and monthly basis. It is done to ensure that the industrialization process is carried out on well-tuned and properly functioning printers.

Chinmay Rathi
In 3d printing

3d Printing Success- What’s The Reason Behind It?

3d printing success

3d printing, also known as additive manufacturing, has made a strong stand in the printing industry by giving a tough competition to the traditional method of manufacturing. It has successfully left its impact in every nook and corner of this wide world. The production of prototypes, jewelry, architecture, portraits, aerospace, medical field been affected by the advancement in 3d printing. Food Science has also witnessed a major change with the coming up of 3d printing. You can now print out your favorite chocolates the way you want to eat it. That made you skip a beat, didn’t it? This is the magic of 3d printing success; renovating the wildest impossible ideas and presenting it to the real world in the most artistic way possible.

What’s the reason behind 3d printing success?

This printing industry has been successful in gaining popularity and firming its position in this ever-advancing business. Quality of phenomenally managing time and thus helping its customers to get their products to develop faster than ever, reducing the cost of the final product leading to a cost-effective result has led to consumer satisfaction at a bigger scale. It involves a technology of printing by interpreting the digitally supplied coordinates with the help of a 3d printer.

Now, you might think how does this make it better?

Well, describing the product is sometimes a very difficult thing to do because it leaves construction up to the imagination. A picture always acts up as a savior since it is worth a thousand words. There is no ambiguity when you hold the exact replica or at least a very close representation of your artifact. 3d printing industry allows self-designing of a product by its customers which makes it a creative industry. All this has led to the major 3d printing success.

Additive manufacturing has witnessed a huge transition if we compare its present development to when it started back in 1986 by ‘CHUCK HULL’. Though, it is not possible to completely eradicate the traditional method of manufacturing it is strongly believed that 3d printing would give a tough competition to the printing industry in the coming years.

Top 3d printing success stories

Pictures are meant for everyone

‘Touchable memories’ by pirate3d, turns photographs into 3d printed objects for people without vision. This was a social experiment to create an awareness of the unlimited possibilities of using technology to improve lives. It was done using an affordable home printer called buccaneer which led the visually impaired to re-experience images by feeling the artifact and fabricating a tangible scene of it.

Nike does it again

Nike launched the rebento duffel, the first 3d printed performance sports bag for Brazil’s 2014 FIFA World Cup. The carry-piece takes styling cues from the sport company’s fly knit pattern of the magista and mercurial, where a laser-sintered nylon creates an intertwined weave seamlessly fitting into the 3d printed base without the use of glue or adhesive, the premium leather upper and strap construction also gives the body a lightweight, yet durable structure that allows for flex.

Don’t judge it on its size

3d printing success

3d printed pen by LIX

LIX, A London based company has successfully created the World’s smallest 3d printing pen. The device enables users to create in the air. Sounds Impossible? But, as always 3d printing has made it possible.Made out of aluminum and measuring 164mm x 14mm, this device allows users to make objects in just a few seconds, including calligraphy, accessories, and one-off prototypes. It functions similar to a 3d printer the only difference is that it is a USB port charging pen which quickly melts and cools colored plastic enabling the pen to create rigid and freestanding structures.

Impossible Castle made possible

3d printing success

3d printed castle

Two years of research and hard work into the depth of technology on an architectural scale has led to the completion of a 3d printed concrete castle by a Minnesota based engineer, Andrey Rudenko.  It is life-sized and capable of habitation. The walls as well as three tops of the small fortress have been fabricated separately and finally assembled together into a single free-standing structure.

World’s first 3d printed car

3d printing success

STRATI by Local Motors

Local motors manufactured the World’s First 3d printed car, ‘The Strati’ using the method of direct digital manufacturing (DDM). It was exhibited at the international manufacturing technology show(ITMS) in Chicago from September 8th to 13th. The final result was a compilation of 44 hours of printing and two days of assembly.

Read more:

3d Printer Speed: Time Taken To Print A 3d Model

Traditional Manufacturing Vs 3d Printing – A Cost Analysis

Chinmay Rathi
In 3d designing, 3d printing

3d Printing In Automotive Industry

3d printing in automotive industry

Remarkable advances in additive manufacturing (AM) technologies, commonly known as 3d printing, over the past decade have helped to transform the prospective ways in which products are designed, developed, manufactured, and distributed. For the automotive industry, these advances have opened doors for newer designs; cleaner, lighter, and safer products; shorter lead times and lower costs. While automotive original equipment manufacturers (OEMs) and suppliers primarily use AM for rapid prototyping, the technical trajectory of AM makes a strong case for its use in product innovation and high-volume direct manufacturing in the future.  3d printing in automotive industry has revived it.

New developments in AM processes, along with related innovations in fields such as advanced materials, will benefit production within the automotive industry as well as alter traditional manufacturing and supply chain pathways. The very famous Shelby Cobra and Local Motors 3d printed car are two examples of the result of the advancement of 3d printing in automotive industry, which has paved a way to experience a notable transition that in the automotive industry.

How is 3d printing in automotive industry paving the way for new car designs?

This printing technology allows for rapid prototyping instead of relying on the traditional method of making a mold and manufacturing a part or hand-tooling a part. There are many advantages of using 3d printing instead of traditional manufacturing, not the least of which are lower costs and faster speeds. The method allows for on-demand tooling, and the parts are lighter and the fabrication process is much more environmentally friendly, requiring a fraction of the energy cost that is required in traditional manufacturing.

In the current landscape, cars are built on long assembly lines that consume staggering amounts of energy, which means even cars built to live an eco-friendly existence roll off the assembly line with a huge carbon footprint. Choosing 3D printing over traditional manufacturing in the automotive industry mainly includes two positive impacts: the exclusion of leftover waste and minimum generation of heat energy, which contributes to an eco-friendly method of processing.

Biggest contribution of 3d printing in Automotive Industry

3d printed Shelby Cobra

3d printing in automotive industry

3d printed Shelby Cobra

Next-generation manufacturing takes on a 50-year-old icon as ORNL researchers transform this classic sports car into a 3d-printed laboratory on wheels. 3d printing enables the seamless integration of advanced technologies with design flexibility and modularity. It provides a platform for rapid development and evaluation. The 3d printed car incorporates “plug and plays” components such as new engine, battery, and fuel cell technologies; hybrid system designs; and power electronics and wireless charging systems, allowing researchers to easily and quickly test out innovative ideas in a driving laboratory.

Olli by local motors

3d printing in automotive industry

Olli-3d printed car by local motors

Local Motors has created history by 3d printing its first Olli, self-driving shuttle in the company’s Knoxville micro-factory. Local Motors has long been innovating the future of vehicle 3d printing. And, Olli is believed to be the only 3d printed transit vehicle on Earth.

 

Chinmay Rathi
In 3d printers

3d Printer Speed: Time Taken To Print A 3d Model

3d printer speed

3d printer speed: How do 3d printers work? How Fast Can 3d Printers Go? What’s the fastest 3d printer speed? What impact does the 3d printer speed have for the duration of the print process?

So for all these questions let us discuss below.

Ever since time immemorial, 3d printers are focused on creating scale models using computer-aided design (CAD). The first patent for a 3d printer was given to Charles Hull for “Apparatus for Production of Three-dimensional Objects by Stereolithography” in 1986 as Hull wanted to start the first 3d printing company, 3d Systems Corporation.

With the background in industrial manufacturing, most 3d printing service technologies were protected by patents held by companies in the industrial market. As patents expired, 3d printers attracted customers to learn more about it.

It was not until the expiration of Stratasys’ patent in 2009 protecting their ownership of the fused deposition modeling (FDM) process that affordable consumer thermoplastic extrusion printers proliferated. The expiration of subsequent patents covering alternative additive manufacturing processes has further fuelled this growth.”

How do 3d printers work?

3d printers build objects using a process known as additive manufacturing. The material is put down in layers; each layer adds to the previous layer and in turn becomes a base for the next layer. Most 3D printers in the consumer market use thermoplastic inks in the printing process. These polymers become soft within a temperature range and then re-solidify when allowed to cool.

3d printer speed

Functional diagram of a 3d printer

Referring to the diagram above, the print bed is where the object is printed. It is usually covered with an adhesive material, and with some inks, it also needs to be heated in order to minimize distortion in the printed object. The extruder temperature may be set manually, depending on the model; the nozzle position is controlled by the microcontroller, which is directed by commands in the print file.

3d printer speed

Generating 3d print files

The *.STL format was created by Chuck Hull’s original printer. It supports a layering process for one extruder. As printers developed, other formats, both open-source and proprietary, were developed. In 2015, the 3D Manufacturing Format (*.3MF) was announced. Developed and supported by the 3MF Consortium, the aim is to standardize 3D print files.

What Resolution Can 3d Printers print?

3d printing at home gives us the ability to manufacture bespoke objects for a very little cost. But the time it takes for a digital 3d model to be processed into a physical object is not as quick as you might think. The size and print quality of the object will have a dramatic impact on the printing speed and can take many hours to produce a finished result. In fact, All 3DP’s tests show that the printer’s speed has much less impact on the duration of the printing process than the size and the quality settings.

3d printer speed settings of desktop printers

Currently, there are generally three sets of printing speed that 3D printers can support. The first set is has been grouped at around 40 to 50mm/s, while the second set prints at about 80-100mm/s. Meanwhile, the fastest set prints at around 150mm/s. Some printers may even print at a speed faster than 150mm/s.s. Typically, faster 3D printing speed means lower quality, though.Above150mm/s, the quality drops noticeably, and you may experience problems as the filament tends to slip at these speeds.

How to set the 3d printer speed?

The 3d printer speed is usually set in the slicing software that you use to prepare your 3d model for printing. In Cura, version 15.04, for example, you simply enter the printing speed in the print speed field on the Basic tab(in former versions, you first have to switch to Advanced mode and open the Speed tab before you have access to the Print Speed setting).

3d printer speed

CURA

3d printer speed: Cura calculates the duration of the printing process based on printing speed and quality settings.
As soon as you change the print speed(or any other print)setting, Cura recalculates the print duration and display sit. The duration Cura calculates is pretty much identical to the actual print duration.

How long does 3d printing take in practice?

To find out how fast 3d printers actually print, we tested how long it takes to print two more or less complex objects on two popular desktop printers: the Ultimaker 2 and the Printrbot Plus. High-Speed Sintering promises the fastest 3d printing speed: On the industrial scale, there are even more exciting developments on the horizon.

The University of Sheffield has announced that they are building a 3d printer(funded to the tune of £1,000,000pounds)that could produce plastic parts as fast as more traditional high-volume manufacturing methods like injection moulding. The process is called high-speed sintering(HSS) and selectively fuses polymer powder layer by layer, similar to other additive manufacturing processes. But instead of using lasers, HSS will print infra-red-absorbing ink on to a powder bed. After a layer has been printed it’s exposed to infra-red light. It heats the powder covered by the ink and causes it to fuse, while the rest of the powder remains cool.

The team, led by Professor Neil Hopkinson, say the new machine will be able to make parts up to 1m3–the size of a washing machine–which is three times more capable than existing machines. The printing speed will depend on the size of the product. But, Hopkinson estimates that small components will be built at a rate of less than one second per part. But how will this benefit you? The good news is that the technology for HSS is being licensed to industrial 3d printer manufacturers on a non-exclusive basis, with new machines being expected on the market from 2017 onwards.That means we can expect a trickle-down benefit to prosumer-grade 3d printers in the not-too-distant future.

Challenges in 3d Printing

There are many challenges which the 3d printing field faces. Except for a few investors, the investment community traditionally has a no risk-taking task.

Some of the other challenges that are as below –

  • The technologies are extremely capital intensive and so are the materials which are higher than the prices prevalent outside India as everything is imported from the developed countries.
  • A lot of design participants/entities (especially small scale & medium scale) still do not believe in prototyping as an investment but see it as a costly expenditure.
  • Only if materials could be engineered and locally produced, the cost could come down drastically directly resulting in a healthy demand and supply.
  • The size of 3d printing equipment restricts a lot of products from being made at one go.
  • Not many understand the various 3d printing technologies available today and most of the service bureaus do not provide design-prototyping-manufacturing assistance which largely reduces the reach of 3d printing.

Read more:

3d Printed Products: Determining Their Quality

Future Of 3d Printing In India

Chinmay Rathi
In 3d designing

3d Printed Architectural Models- Redefining The Architecture

3d printed architectural models

The advent of  3d printing has changed tremendously the way of manufacturing a component. The wide range of materials a printer can accommodate opens up new potential for environmental-friendly furniture and decor. Choosing additive manufacturing over traditional manufacturing proves to be a boon for the mother Earth as it produces much less wastage. In this era of pollution all around, this is a smart choice to make. 3d printing has led to the major transformation in the architectural field. The 3d printed architectural models have redefined the architecture.

Intricate designs depending upon a person’s interest can be designed in design software and scanned for printing purpose and when fed into the machine it gives the customer the designed product. Adding on to this the customer can also choose his own materials for the product.This makes the designer save time in searching for shops which have the product in the design which he thought of.

The technology of 3d printing provides the means to prototype designs that cannot be made through traditional manufacturing, which has opened the door to virtually limitless possibilities for the interior design industry. From light fixtures that take on the appearance of lace to bicycle-gear-shaped chandeliers, lighting designers have embraced 3d printing to create functional art for the home. Smaller decorative furnishings like creative containers, stools, and planters are less expensive, easier to print yourself, and adds visual interest to any interior. The main usage and point of attraction are objects can be produced as a whole or separate parts that make up the whole object to be produced. These separate parts can be joined together to incredible tolerances such that it is difficult to predict whether the whole object is produced from the machine or separate parts are produced and joined.This shows the accuracy of manufacturing components.

The best 3d Printed Architectural Models

3d printed concrete castle

3d printed architectural models

3d printed castle

The first example of the best 3d printed architectural models is the 3d printed concrete castle made by a Minnesota based engineer named Andrey Rudenko. He with his two years of research and hard work in the field of technology came up with the idea and processing of a 3d printed concrete castle which is life-sized and capable of habitation. The walls of the small fortress, as well as three tops of the towers, have been fabricated separately and finally assembled into a single unit of free-standing structure. Looking at the castle no one can even doubt it not being a single unit that is the level of accuracy additive method of manufacturing has gained over the years. Not just this, time is consumed on a large scale.

3d printed hotel suite

3d printed architectural models

Construction phase of the 3d printed hotel suite

3d printed architectural models

Lewis Grand Hotel

The second example of the best 3d print architectural models is the 3d printed hotel suite. A Grand suite hotel at the Philippines was built just in 5 days using 3d printing. Hotel owner Lewis Yakich has unveiled the world’s first 3d printed hotel suite—and it even comes with a spacious 3d-printed concrete jacuzzi. The 130-square-meter (1,500 square feet) structure was built for The Lewis Grand hotel in Angeles, Philippines, and took approximately 100 hours of print time to complete.

Yakich collaborated with Andrey Rudenko (the Minnesotan inventor of a 3d concrete printer and builder of the world’s first 3d printed concrete castle).

Their collaboration helped them to:

  • Prepare and ship the 3d printer components over from Minnesota to the Philippines
  • Assemble the machine
  • Create the right concrete mix from local materials, including sand and volcanic ash.

The recently completed two-bedroom villa measures 10.5 meters by 12.5 meters and includes a living room and a jacuzzi room. Plumbing, wiring, and rebars are also installed in the structure

Sounds Impossible? Well, that is the true essence of this method, making impossible things possible.

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3d Printed Shoes By Adidas: Future Craft 4d

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Chinmay Rathi
In 3d printing

Future Of 3d Printing In India

3d printing in India

3d printing is a method of additive manufacturing technology where a three-dimensional product is created by laying down successive layers of material. It is also referred to as rapid prototyping, 3d printing is a mechanized method whereby 3d objects are quickly made on a reasonably sized machine connected to a computer containing blueprints for the object. The 3d printing idea of custom manufacturing is exciting to almost everyone. This revolutionary method for creating 3d models saves time and cost by eliminating the need to design; print and glue together separate model parts. The technology of 3d printing in India holds a promising future.

The current scenario of 3d printing in India

3d printing in India is a high potential prospect as it is completely virgin and the most exciting used cases of 3d printing in a social context or rural or is bound to come out of India. We have some inherent strengths since we are a country of makers – and India cannot wait to jump into 3d printing and leapfrog the rest of the world.

Challenges in 3d printing in India

  • The technologies demand very high capital and so are the materials which are higher than the prices prevalent outside India as everything is imported from the developed countries.
  • A lot of design participants/entities (especially small scale & medium scale) still do not believe in prototyping as an investment but see it as a costly expenditure.
  • Only if materials could be engineered and locally produced, the cost could come down drastically directly resulting in a healthy demand and supply.
  • The size of 3d printing equipment restricts a lot of products from being made at one go.

Future prospects of 3d printing in India

3d printing in India

3d printed Lord Ganesha print by Make Whale

The 3d printing technology is turning out to be popular with every year, and there are many new companies coming up in the sector offering supreme quality services. One of the leading 3d printing Service Company in India is Make Whale. We can either buy the products displayed on the site or send them correct specification of the product we wish and they create it for us and delivers at our place.

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3d Printing Success- What’s The Reason Behind It?

3d Printed Jewelry- Transforming The Jewelry Designs

Chinmay Rathi
In 3d printing

3d Printing In The Medical Field

3d printing in the medical field

3d printing has revolutionized over the years and it has not failed to surprise the humankind with its new innovations and creations contributing to the betterment of the society. One such innovation or maybe the greatest innovation of the 3d printing industry is in the medical field. There was a time when it was difficult to get a kidney transplant or heart transplant done because of the limited number of people(donors) coming forward for this noble cause but with the advancement of 3d printing techniques that phase of the time has likely been extinct. 3d printing in the medical field provides many benefits including the customization and personalization of medical products, drugs, and equipment.  Cost-effectiveness increased productivity,  the democratization of design and manufacturing and enhanced collaboration are the qualities that make this printing technique to stand out in the crowd.

Benefits of 3d printing in the medical field that add up to the good cause

Customizable

Considering human anatomy is as different as considering every individual on the planet. Being able to customize your output is a huge asset and a key to understanding anatomy on a deeper level. 3d printing in the medical field has revolutionized it. Now, each patient can get the customized solution he/she needs.

Cost Effective

While large-scale productions are still quite cheap, smaller production runs and prototyping is now so affordable with the 3d printers in the picture. The cost of shipping and manufacturing is cut down which further creates a strong base for the 3d printing industry.

Efficient

Making a prosthetic or an implant or even developing a prototype involves long hours and delivery time. If the process is completely automatic, has the readings already in place, the output is fast and reliable. Moreover, it is duplicable and changeable, making the whole process a lot more balanced and resulting in high productivity.

Collaboration

With the process easier and cost-effective, more researchers and professionals can develop designs and innovate. By giving a simple solution to your imagination and bringing it to life in the real way possible.

Innovations in 3d printing in the medical field

3d printing in the medical field

3d printed nose and ear

Did you ever think a printer could come out with something that would change the life of a hopeless person and make him live up to his dreams? Well, just like the saying goes ‘it always seems impossible until it is done’. It didn’t even strike in our wildest dreams that one day a printer would participate in the selfless act of saving human life. 3d printing has made this dream beyond the bounds of possibility possible with its advancement in techniques and services.

Read more:

3d Printing In Automotive Industry

3d Printed Products: Determining Their Quality