Electron Beam Melting
Enumerating the role of 3D printing in automotive market: How the technology is changing the face of automobile manufacturing & prototyping
Additive manufacturing technologies over the past years have made a strong case in product innovation and 3D printing in automotive market, in particular, has significantly transformed the potential ways in which products are designed, manufactured, and distributed. The additive manufacturing techniques have also opened doors for lighter, cleaner, and more safe products with comparatively lower cost and shorter lead time. Quite overtly, these physiognomies have paved a lucrative way for the commercialization matrix of automotive 3D printing market, which has already chronicled its name in the coveted billion-dollar fraternity in 2017. According to a report by Global Market Insights, Inc., the global 3D printing in automotive market was estimated at over USD 1.4 billion in 2017, while registering annual sales of 3D printers over 110 thousand units.
U.S. 3D Printing in Automotive Market Revenue, By Component
Given the proliferating 3D printers sale in the automotive sector, it has been identified that accelerating production is the highest priority the auto companies are relying on 3D printing for, climbing from 29% in 2017 to 39% in 2018. Auto manufacturers are increasingly relying on 3D printing to streamline and expand their possibilities of mass customization, build-to-order product strategies, and in increasing the production flexibility and sales.
The role of 3D printing in driving competitiveness
According to a report by Forbes, over 93% of companies in 2018 are using 3D printing and are gaining competitive advantages such as reduced time-to-market and flexible shorter production runs for potential customers. The technological advancements in 3D metal materials have further led this business sphere to depict a profound growth. Estimates claim that over 36% of the companies are using metal material for 3D printing in 2018, a considerably upswing from 28% in 2017. The data signifies the greater adoption of 3D printers for production operations, which in turn is propelling automotive 3D printing market growth.
While there is no doubt that additive manufacturing has taken the automotive industry by storm, it would to interesting to take note of some industry magnates who are leveraging the technical trajectory of AM in driving their revenue growth. Enumerated below are few recent instances that shed light on the increasing adoption of 3D printing in automotive industry.
Get a Sample Copy of this Report:@ https://www.gminsights.com/request-sample/detail/2838
Volkswagen is using 3D printing for mass production
Automotive industry behemoth Volkswagen has recently announced that it will be using the latest 3D printing technology for manufacturing different auto parts. The company will be using the technology with the HP Metal Jet process that is expected to simplify and speed up the metallic 3D printing. According to reports, a Volkswagen vehicle is manufactured from around 6000 to 8000 different parts and 3D printing has helped immensely in mass production of these parts.
Volkswagen with HP and GKN, is further planning to take the technology to next level that could be able to produce individualized design parts including gear knobs, tailgate lettering, and special keys with personalized lettering without a great deal of effort. Significantly reducing the time required for manufacturing parts and assisting in production of mass quantities, the automotive 3D printing market demand is expected to thrive several notches up in the ensuing years.
Nanosteel unveils Formetrix, aids commercialization of metal 3D printing
An advanced materials company, Nanosteel has recently unveiled that it has launched an enterprise focusing chiefly on materials for additive manufacturing. The new corporation, dubbed as the Formetrix, is expected to further the commercialization of 3D printing metals and as well offer on-demand production services. It has been reported that Nanosteel will be supporting two areas – steel powders and sheet steel for automotive lightweighting for 3D printing. This has grabbed the attention of several automotive 3D printing industry players for investment & development of their metal auto parts. Besides the automotive 3D printing industry, the company will be playing a key role in additive manufacturing components of the oil & gas, construction, and heavy machinery markets.
Audi accelerates automotive design with Stratasys 3D printing
This German auto maker has recently announced that it has adopted the Stratasys’ J750 full-color and multi-material 3D printer for accelerating the design verification process and reducing the time required for prototyping. Leveraging the additive manufacturing technology, Audi claims that it has accomplished prototyping lead time cuts by as much as 50% for some parts. According to reliable reports, prototyping & tooling application accounted for 60% of automotive 3D printing industry share in 2017, and Audi’s adoption of Stratasys 3D printing bears testimony to the rapid expansion of this segment.
With increasing number of big-name manufacturers embracing 3D printing in automotive industry, it wouldn’t be wrong to say that this technology has come a long way and has the power to influence the direction in which auto design sector will head in future. Considering the sheer size of the global automotive industry, 3D printing is all set to be a game-changer in shaping automotive design and manufacturing trends. Soon to become an integral part, 3D printing in automotive market is poised to further unlock tremendous innovation potential and gather a remuneration portfolio exceeding USD 8 billion by 2024.
Author Name : Ojaswita Kutepatil
This entry was posted in Sustainable & Smart Technologies and tagged 3D Printing in Automotive Market, 3D Printing in Automotive Sector, Ceramic, Desktop, Direct Metal Laser Sintering, DMLS, EBM, Electron Beam Melting, FDM, Fused Deposition Modeling, Hardware, Industrial, Manufacturing, Material, Metal, plastic, Printer, Prototyping & Tooling, Research & Development, Selective Laser Melting, Selective Laser Sintering, Services, SLA, SLM, SLS, Software, Stereolithography.
Additive manufacturing with metal powders market to chronicle its name in the billion-dollar business space, high demand for titanium alloys to drive the industry growth
Additive manufacturing with metal powders market has observed an appreciable expansion in recent years, essentially pertaining to the fact that the technique helps to build convoluted components that were earlier considered difficult to construct. Today, additive manufacturing has moved beyond the conventional prototyping technology, which has indeed acted as a major driving force for additive manufacturing with metal powders industry growth. Not to mention, the deployment of this technology has led to effective production of components that are now massively demanded across the aerospace, automotive, and medical sectors.
U.S. Additive Manufacturing with Metal Powders Market Size, By Application, 2016 & 2024, (USD Million)
A succinct gist of the material expanse of additive manufacturing with metal powders market
The material spectrum of additive manufacturing with metal powders market is rather extensive and encompasses quite a substantial number of metals and alloys. With robust rise in the number of procedures for additive manufacturing, more and more constituent metals are being involved in the manufacturing process, thereby expanding the material landscape of additive manufacturing with metal powders industry. The most common metal powders used for additive manufacturing are aluminum, stainless steel, cobalt, nickel and titanium alloys. Titanium among these is known to register an exorbitant demand, driven by its formability, light weight, superior strength and corrosion resistance. In fact, estimates claim that titanium alloy based additive manufacturing with metal powders market size will grow at a phenomenal CAGR of 29% over 2017-2024, subject to the material’s extensive deployment in the aerospace industry.
Get a Sample Copy of this Report:@ https://www.gminsights.com/request-sample/detail/1783
Stainless steel has been touted as another product that is slated to witness potential growth in the additive manufacturing with metal powders market. This growth can be primarily credited to the material’s ferritic microstructure that makes it corrosion resistant and delivers superior mechanical properties to stainless steel, deeming it prefect for automobile parts, kitchen equipment and industrial appliances. Fueled by its massive application spectrum, stainless steel based additive manufacturing with metal powders industry size is projected to register a valuation of around USD 240 million by 2024.
Though additive manufacturing started out as an effective means for modelling and prototyping, additive manufacturing with metal powders industry has now experienced commendable expansion, subsequently leading to the application of the technique in a plethora of sectors. Industrial domains such as medical, dental, aerospace, automotive, jewelry, furniture, and architecture have been experiencing a touch of 3D printing techniques, while companies partaking in additive manufacturing with metal powders industry have been vying with one another to innovate varied products.
The automotive sector is a prominent end-use domain witnessing the deployment of additive manufacturing. As the demand for lightweight parts has been increasing due to the rising need to curb carbon emissions, auto parts manufactured through 3D printing are being preferred over conventionally manufactured parts. In response, additive manufacturing with metal powders market will witness a CAGR of 25% from automotive applications, over 2017-2024.
One of the chief advantages of additive manufacturing is that it is produced directly from a CAD model, owing to which it is extremely flexible and subsequently finds major applications in highly individualized processes such as dental restorations. Not to mention, the technique’s versatility has led to its deployment in numerous other medical applications. It comes as no surprise therefore, that additive manufacturing with metal powders industry size from medical application is projected to reach USD 200 million by 2024, given that the process would help speed up production time without inflating the costs.
Additive manufacturing is potent enough to be considered as one of the disruptive technologies that can change the entire landscape for design and manufacturing. From artists and designers to huge enterprises, the adoption of additive manufacturing is indeed witnessing a major ascent. In consequence, additive manufacturing with metal powders industry outlook has been observing a positive change of sorts. As the future of components is set to focus on the design for function rather than design for manufacturing, additive manufacturing with metal powders market size is undeniably slated to witness phenomenal growth between 2017 and 2024, with a target estimation of 4.5 kilo tons by 2024, in terms of volume.
Author Name : Paroma Bhattacharya
This entry was posted in Automotive & Transportation and tagged Additive Manufacturing with Metal Powders Market, Additive Manufacturing with Metal Powders Market Forecast, Additive Manufacturing with Metal Powders Market Report, Additive Manufacturing with Metal Powders Market Share, Alloy, Aluminum, Austenitic Steel, Blown Powder, Cobalt, Copper, Direct Metal Deposition, Direct Metal Laser Sintering, Duplex Steel, Electron Beam Melting, Ferritic Steel, High Speed Steel, Laser Engineering Net Shape, Low Alloy Steel, Martensitic Steel, Nickel, Powder Bed, Precious Metal, Selective Laser Melting, Stainless Steel, Titanium, Tool Steel.