#3dprinting in healthcare
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altem-technologies · 7 months ago
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J5 Medijet: Revolutionizing Medical 3D Printing with Polyjet Technology!!
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The J5 Medijet by Stratasys is a multi-material, multi-color medical 3D printer using Polyjet technology. With a rotating build platform and fixed print head, it sets a new standard in medical 3D modeling. Ideal for academic medical centers, hospitals, and medical device companies, it creates realistic anatomical models and biocompatible guides for surgery. Simplifying 3D printing workflows, it improves patient outcomes and enhances satisfaction in surgical planning.
Read More: https://altem.com/j5-medijet/
For any questions or require further information please feel free to reach out at +91-80-4150 6070 or [email protected].
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timestechnow · 11 days ago
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sifytech · 1 year ago
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How Improved Illness Detection Might Be Aided by Extended Reality
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It's revolutionary for physicians since it makes complex conditions more understandable than they are while using traditional methods. Read More. https://www.sify.com/science-tech/how-improved-illness-detection-might-be-aided-by-extended-reality/
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3dprinterchat · 2 years ago
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Scientists at MIT use 3D printing to produce heart replicas.
MIT engineers have created a method using 3d printing that allows doctors to provide patients with care that is unique to each heart. The heart is one of the most important organs in the body, but it is also susceptible to many dangers. With nearly 18 million deaths per year, cardiovascular diseases (CVDs) are the leading cause of death worldwide, according to the World Health…
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infofeasting · 2 years ago
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Beyond Titanium: Exploring the Emerging Applications of 3D Printing Metals
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What does the 3D Printing Metals Market entail?
3D printing with Metals is a rapidly developing field that allows for the creation of complex and intricate metal parts that would be difficult or impossible to manufacture using traditional techniques. There are several types of metals that can be used for 3D printing, including:
Stainless steel; is one of the most commonly used metals for 3D printing. It has high strength and durability, making it suitable for a wide range of applications.
Titanium; a lightweight and strong metal that is often used in aerospace and medical industries. 3D printing with titanium allows for the creation of highly precise and customized parts.
Aluminum; is lightweight and is commonly used in the automotive and aerospace industries. 3D printing with aluminum allows for the creation of complex parts that are both lightweight and strong.
Copper; being highly conductive in nature, is used in electronics and other applications where high conductivity is required. 3D printing with copper allows for the creation of highly precise parts with complex geometries.
The process of 3D printing with metals typically involves using a metal powder that is melted and fused together using a laser or electron beam. This process is known as selective laser melting (SLM) or electron beam melting (EBM). The metal powder is melted layer by layer until the desired shape is formed.
Avail a free report sample, here, https://www.nextmsc.com/3D-Printing-Metals-Market/request-sample
Who are the Top Producers of Metals for 3D Printing on a global scale?
Comprehensive competitive analysis and profiles of major market players recognize: 3D Systems Corporation, Arcam AB, Carpenter Technology Corporation, Concept Laser GmbH, Eos GmbH Electro Optical Systems, Equispheres, ExOne GmbH, GKN PLC, Hoganas AB, LPW Technology Inc., Materialise NV, Optomec Inc., Renishaw PLC, as few of the leading manufacturers in the global 3D printing metals market, amongst others.
Each of these companies have unique strategies and strengths that set them apart from the others:
3D Systems Corporation: One of the pioneers in the 3D printing industry, 3D Systems Corporation offers a range of 3D printing technologies for metal, including Direct Metal Printing (DMP) and Selective Laser Melting (SLM). They have a strong focus on customization and have developed a range of software solutions to help customers design and print metal parts.
Arcam AB: Arcam AB is a Swedish company that specializes in electron beam melting (EBM) technology for 3D printing with metals. They are known for their high-quality products and have a strong presence in the aerospace and medical industries.
Carpenter Technology Corporation: Carpenter Technology Corporation is a global leader in the manufacturing of specialty alloys and is known for their expertise in metal powders for 3D printing. They have a strong focus on research and development, and have invested in developing new alloys specifically for 3D printing.
Concept Laser GmbH: A German company that specializes in laser-based 3D printing technologies for metals. They are known for their high-quality products and have a strong presence in the aerospace, medical, and dental industries.
EOS GmbH Electro Optical Systems: EOS is a German company that offers a range of 3D printing technologies for metals, including Direct Metal Laser Sintering (DMLS) and LaserCUSING. They have a strong focus on developing new materials and have partnerships with a range of research institutions and universities.
Equispheres: A Canadian company that specializes in the development of high-performance metal powders for 3D printing. They have a strong focus on quality control and have developed a range of testing and certification procedures to ensure the quality of their products.
ExOne GmbH: ExOne is a global leader in binder jetting technology for 3D printing with metals. They are known for their large-format printers and have a strong presence in the automotive, aerospace, and defense industries.
GKN PLC: GKN is a UK-based company that specializes in the manufacturing of metal components for a range of industries, including aerospace, automotive, and industrial applications. They have invested heavily in 3D printing technologies and have developed a range of products specifically for additive manufacturing.
Hoganas AB: A Swedish company that specializes in the development and manufacturing of metal powders for 3D printing. They have a strong focus on sustainability and have developed a range of products using recycled materials.
LPW Technology Inc.: A UK-based company that specializes in the development of metal powders for 3D printing. They have a strong focus on quality control and have developed a range of software solutions to help customers manage their powder inventory.
Materialise NV: A Belgian company that offers a range of 3D printing technologies for metals, including DMLS and SLM. They have a strong focus on customization and have developed a range of software solutions to help customers design and print metal parts.
Optomec Inc.: A US-based company that specializes in Aerosol Jet technology for 3D printing with metals. They are known for their ability to print on complex geometries and have a strong presence in the electronics and aerospace industries.
Renishaw PLC: A UK-based company that offers a range of 3D printing technologies for metals, including SLM and EBM. They are known for their high-quality products and have a strong presence in the medical and dental industries.
Benefits and Drawbacks of the Market for 3D-Printed Metals:
3D printing with metals has many benefits and drawbacks, here are some of the key ones:
BENEFITS:
Design freedom: 3D printing with metals allows for the creation of complex shapes and geometries that would be difficult or impossible to achieve with traditional manufacturing methods.
Material properties: Metals have excellent material properties such as strength, durability, and heat resistance, which make them ideal for a wide range of applications.
Reduced waste: 3D printing with metals reduces waste compared to traditional manufacturing methods, as only the necessary amount of material is used.
Customization: 3D printing with metals allows for the production of customized parts that meet specific requirements and needs.
Reduced lead times: 3D printing with metals can significantly reduce lead times compared to traditional manufacturing methods, as parts can be produced in a matter of hours rather than days or weeks.
DRAWBACKS:
Cost: 3D printing with metals can be expensive due to the high cost of materials and equipment.
Limited size: 3D printing with metals is limited by the size of the printing bed, which can make it difficult to produce large parts.
Post-processing requirements: 3D printed metal parts require post-processing, such as polishing or heat treatment, to achieve the desired surface finish and material properties.
Safety concerns: 3D printing with metals can create hazardous fumes and particulate matter, which can pose safety risks to the operator.
Limited material selection: The selection of materials for 3D printing with metals is currently limited compared to traditional manufacturing methods, although this is improving over time as new materials are developed.
What Primary Factors are Influencing the global market for Metals used in 3D Printing?
The 3D printing metals market has seen significant growth in recent years, driven by a combination of technological advancements, expanding application areas, and increasing demand for custom parts and components. However, like many industries, the COVID-19 pandemic has had an impact on the 3D printing metals market, with disruptions in supply chains and production processes.
Here are some key factors driving the growth of the 3D printing metals market:
Technological advancements: 3D printing technologies have continued to advance, allowing for more precise and efficient printing of metal parts. This has expanded the potential applications for 3D printing metals and increased the quality of the final product.
Customization: 3D printing with metals allows for highly customized parts to be created, which can be tailored to the specific needs of the customer or application. This has led to increased demand for 3D printing metals in a variety of industries, including aerospace, healthcare, and automotive.
Reduced production costs: While 3D printing metals can be more expensive than traditional manufacturing methods for high-volume production runs, it can be more cost-effective for small production runs or highly customized parts. Additionally, 3D printing can eliminate the need for expensive tooling and setup costs, which can result in cost savings.
Increasing demand from end-use industries: As more industries adopt 3D printing metals technology, demand for 3D printed metal parts and components is increasing. This includes industries such as aerospace, healthcare, and automotive.
However, there are also some challenges facing the 3D printing metals market, including:
High capital investment: The cost of purchasing 3D printing metal equipment can be high, which can be a barrier to entry for some businesses.
Limited material options: While there are a variety of metals that can be used for 3D printing, the selection is still more limited compared to traditional manufacturing methods.
Quality control and certification: Ensuring quality control and certification for 3D printed metal parts can be challenging, particularly in industries with strict regulatory requirements such as aerospace and healthcare.
COVID-19 impacts: The COVID-19 pandemic has caused disruptions in supply chains and production processes, which has had an impact on the 3D printing metals market. However, the market is expected to recover in the coming years as the global economy rebounds.
Therefore, the 3D printing metals market is expected to continue growing in the coming years, driven by technological advancements, expanding application areas, and increasing demand for customized parts and components. However, businesses will need to navigate the challenges facing the industry to take advantage of the opportunities presented by this growing market.
Segmentation & Regional Breakdown of the Metals Market for 3D Printing:
The global 3D Printing Metals market share is analyzed on the basis of application, form, product, and geography. Each of these segments plays a crucial role in the overall 3D printing metals market. By analyzing these segments, companies can gain valuable insights into market trends and make informed business decisions.
The 3D printing metals industry globally has significant growth potential in various regions. The North American region is one of the largest markets for 3D printing metals, with the United States being a major contributor to the growth. The region has a well-established manufacturing industry, particularly in the aerospace and defense sectors, which are the major end-users of 3D printing metals. The healthcare industry is also a significant contributor to the market growth in the region.
The European region is another significant market for 3D printing metals, with countries like Germany, France, and the UK leading the growth, alongside the Asia-Pacific region, which is expected to witness significant growth in the 3D printing metals market. Other important regions include Latin America, Middle East and Africa. The growth rate may vary depending on the level of technological advancements and the adoption rate in each region.
Henceforth, the future of the global 3D printing metals market looks promising with significant growth potential in the coming years.
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moderntechbiz · 2 years ago
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The healthcare industry is evolving at a breakneck pace, and the driving force behind this transformation is technology. From telemedicine to wearable devices, innovative technologies are changing the way healthcare is delivered, and the future looks bright. In this post, we'll take a closer look at some of the most exciting technologies shaping the future of healthcare.
Telemedicine: Telemedicine is a game-changer in the healthcare industry, allowing patients to receive medical care remotely. With the COVID-19 pandemic, the demand for telemedicine has exploded, as more patients seek to avoid in-person visits. Telemedicine allows healthcare providers to reach more patients, regardless of their location. It's expected that telemedicine will continue to grow in popularity, offering patients access to quality healthcare services from the comfort of their own homes.
Artificial Intelligence (AI): AI is already transforming the healthcare industry, with applications ranging from predictive analytics to robotic surgery. With the help of AI, healthcare providers can make more accurate diagnoses and provide personalized treatment plans. By analyzing vast amounts of patient data, AI can identify patterns and provide insights that would be difficult for humans to uncover. The potential applications for AI in healthcare are endless, and it's exciting to think about what the future holds.
Wearable Devices: Wearable devices such as smartwatches and fitness trackers are becoming increasingly popular among consumers. These devices can monitor various health metrics, including heart rate, sleep patterns, and physical activity. In the future, wearable devices may be used to monitor chronic conditions and provide real-time feedback to patients and healthcare providers. Wearable technology is a game-changer in the healthcare industry, enabling patients to take a more active role in managing their health.
3D Printing: 3D printing is already being used in the healthcare industry to create prosthetics, dental implants, and surgical tools. In the future, 3D printing may be used to create personalized implants and organs. This could revolutionize the field of transplantation, as organs could be created on demand, reducing the waiting time for patients. 3D printing has the potential to make healthcare more accessible and affordable, providing patients with personalized solutions to their healthcare needs.
Virtual Reality (VR): Virtual reality is already being used in healthcare for training healthcare professionals and treating mental health conditions. In the future, VR could be used to create immersive experiences that could help patients with chronic pain or anxiety. VR has the potential to transform the way patients experience healthcare, offering a more personalized and engaging approach to treatment.
In conclusion, the future of healthcare looks incredibly promising, with innovative technologies revolutionizing the industry. From telemedicine to AI, wearable devices, 3D printing, and VR, these technologies have the potential to improve patient outcomes and reduce healthcare costs. As technology continues to advance, we can expect even more exciting innovations in the healthcare industry, leading to a brighter, healthier future for us all.
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shital1998 · 2 years ago
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Top 10 Companies in 3D Printing Materials Market
Over the last decade, three-dimensional (3D) printing technology has revolutionized dentistry. Dental 3D printing is a versatile process that enables the manufacture of completely automated treatment plans, allowing patients to receive customized dental devices and aids. The dental 3D printing material market comprises dental polymers, composites, dental ceramics, and metals.
The global dental 3D printing materials market is expected to grow at a CAGR of 22.4% during the forecast period to reach USD $2.60 billion by 2028.
The growth of this market is mainly driven by the high prevalence of dental diseases like edentulism, increasing demand for cosmetic dentistry, growth in the geriatric population, and technological advancements in dental 3D printing. The advancements in the resins used for dental 3D printing and growing popularity for computer-aided design/computer-aided manufacturing (CAD/CAM) technologies offer lucrative market growth opportunities. However, the reluctance to adopt digital dentistry and biocompatibility of the 3D printing materials is challenging for the dental 3D printing materials market.
Here are the Top 10 Companies In Dental 3D Printing Materials Market
3D Systems Corporation (U.S.)
                        3D Systems provides 3D printing and digital manufacturing solutions, including 3D printers for plastics and metals, materials, software, on-demand manufacturing services, and digital design tools. The company offers these solutions to two main verticals, namely, Healthcare (which includes dental, medical devices, and personalized health services) and Industrial (which includes aerospace, defense, transportation, and general manufacturing).
The company provides various materials, including plastic, nylon, metal, composite, elastomeric, wax, polymeric dental materials, and bio-compatible materials for 3D printing. Its dental solutions include digital dentistry technologies and materials that allow dental labs to access advanced digital workflows, driving speed, efficiency, and precision of various indications delivered to patients. With its subsidiaries and a strong distribution network, the company has its presence across North and South America, Europe, the Middle East, and Asia-Pacific. The company has its manufacturing centers in the U.S., Switzerland, and Belgium.
The company produces materials at Rock Hill, South Carolina, Marly, Switzerland, and Soesterberg, the Netherlands. The major research and development locations include North Carolina, California, Oregon in the U.S., and outside the U.S. in South Korea, Israel, and Belgium. The subsidiaries of the company include 3D Canada Company (Canada), 3D Systems Asia-Pacific Pty Ltd (Australia), NextDent B.V (Netherlands), 3D Systems GmbH (Germany), and others.
Stratasys Ltd. (Israel) Stratasys manufactures polymer-based 3D printing solutions. Apart from systems, consumables, and software, the company also provides services for additive manufacturing. These solutions are used for various industries, including aerospace, automotive, transportation, healthcare, consumer products, dental, medical, and education. The offices and warehouses of the company are present in Israel and the U.S. (California, Texas, and New York).
The manufacturing facility is present in Israel. The sales offices are present in Europe, Asia-Pacific, and the Middle East, while facilities are present in the U.S.
DENTSPLY SIRONA Inc. (U.S.)
DENTSPLY SIRONA is a manufacturer of professional dental products and technologies. The company develops, manufactures, and markets solutions that include technologically advanced dental equipment and dental and healthcare consumable products. The company categorizes its products into three categories: Dental Technology and Equipment Products, Dental Consumable Products, and Healthcare Consumable Products. Its dental consumable products include endodontic (root canal) instruments and materials, dental anesthetics, prophylaxis paste, dental sealants, impression materials, restorative materials, tooth whiteners, and topical fluoride. These products are used in dental laboratories include dental prosthetics, including artificial teeth, precious metal dental alloys, dental ceramics, and crown and bridge materials.
The company conducts its business in the U.S. and over 120 foreign countries through its foreign subsidiaries. The company has its geographic presence in Germany, Sweden, France, the U.K., Switzerland, Italy, and Canada. The Company also has a significant market presence in the Pacific Rim, Commonwealth of Independent States (CIS), Central and South America, and the Middle-East region.
Straumann Holding AG (U.S.)
Straumann develops, manufactures, and supplies dental implant systems, biomaterials, CADCAM prosthetics, digital equipment, software, clear-aligner systems, and various materials. These products are used in replacement, restorative, orthodontic, and preventive dentistry applications. The company has principal production sites for implant components and instruments in Switzerland and the U.S., the CADCAM milling centers in Germany, Japan, and the U.S., and the production site in Sweden for Straumann biomaterials and sterile packed products. InstitutStraumann AG is a subsidiary of Straumann Group, which supplies dental 3D printing materials.
VOCO GmbH (Germany)
Founded in 1981 and headquartered in Cuxhaven, Germany, VOCO is a dental products manufacturer serving dental practices and laboratories. The company is certified according to EN ISO 13485 and MDD 93/42 EEC – Annex II and complies with Germany’s Medicines Act and U.S. FDA legislation. The company has its geographic presence in Europe, North America, Asia, Central, and South America.
Meticulous Research in its latest publication on global Dental 3D Printing Materials Market has predicted the growth of 22.4% during the forecast year 2021-2028 
3M Company (U.S.) 3M operates in electronics, telecommunications, industrial, consumer and office, healthcare, safety, and other markets. The company provides its products through four business segments, namely, Safety and Industrial, Transportation and Electronics, Healthcare, and Consumer. The company offers dental materials through its Healthcare business segment. The company operates 64 manufacturing facilities across the U.S. Internationally; the company operates 97 manufacturing and converting facilities in 35 countries.
Formlabs Inc. (U.S.)
Founded in 2011 and headquartered in Massachusetts, U.S., Formlabs manufactures 3D printers, post-possessing solutions, manufacturing solutions, 3D printing materials, software, and services. These products serve multiple engineering, manufacturing, dental, education, medical, entertainment, jewelry, and audio.
The company has offices present in Germany, Japan, China, Singapore, Hungary, and North Carolina (U.S.). The company has 500 employees globally.
DMG Chemisch-Pharmazeutische Fabrik GmbH (Germany)
Founded in 1963 and headquartered in Hamburg, Germany, DMG manufactures dental materials for dentists and laboratories. The category of products includes prevention and caries infiltration, impression material, temporary care, indirect restoration, direct restoration, laboratory, and accessories. The company is ISO certified. The products of the company are manufactured in Hamburg. The company has its geographic presence across Africa, Asia, Europe, North, Central and South America, and Oceania.
EnvisionTEC (U.S.) Founded in 2002 and headquartered in Michigan, U.S., EnvisionTEC manufactures 3D printers, proprietary materials, and software. The company’s products are used by various industries, including dentistry, jewelry, bio fabrication, hearing aid, entertainment, education, aerospace, automotive, consumer goods, and others. In February 2021, Desktop Metal, Inc. (U.S.) completed the acquisition of EnvisionTEC.
The company has a geographic presence in 66 countries. The company has its R&D facilities in the U.S., Germany, Canada, Ukraine, while production sites are present in the U.S. and Germany. The company has more than 200 employees.
Keystone Industries (U.S.)
Founded in 1908 and headquartered in New Jersey, U.S., Keystone Industries manufactures dental products, primarily 3D resins. The company is ISO 13485 certified and FDA –licensed. The certified manufacturing sites are present in New Jersey and Pennsylvania in the U.S. and exceed 400,000 combined square feet. The company has its geographic presence in North America, Europe, and other global territories.
Amidst this crisis, Meticulous Research® is continuously assessing the impact of the COVID-19 pandemic on various sub-markets and enables global organizations to strategize for the post-COVID-19 world and sustain their growth. Let us know if you would like to assess the impact of COVID-19 on any industry here- https://www.meticulousresearch.com/download-sample-report/cp_id=5204
Authoritative Research on the Dental 3D Printing Materials Market – Global Opportunity Analysis and Industry Forecast (2021-2028)
Need more information? Meticulous Research®’s new report covers each of these companies in much more detail, providing analysis on the following:
Recent financial     performance
Key products
Significant company     strategies
Partnerships and     acquisitions
Impact of covid 19 on     the Dental 3D Printing Materials Market
The Comprehensive report provides global market size estimates, market share analysis, revenue numbers, and coverage of key issues and trends.
Please download report pages and learn more: https://www.meticulousresearch.com/download-sample-report/cp_id=5204
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mostlysignssomeportents · 2 years ago
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This day in history
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#20yrsago Patron Saint sought for Internet https://www.cnn.com/2003/TECH/internet/01/31/internet.saint/index.html
#20yrsago Space Shuttle runs free software and open protocols https://news.bbc.co.uk/2/hi/technology/2709875.stm
#15yrsago Amazon buys Audible, promises to kill DRM if we complain https://www.washingtonpost.com/wp-dyn/content/article/2008/01/31/AR2008013101662.html
#10yrsago Noisebridge hackerspace explains fair use to Dreamworks https://www.noisebridge.net/wiki/DreamworksReply
#10yrsago 25 years of legal abortion in Canada https://torontoist.com/2013/01/r-v-morgentaler-25-years-later/
#10yrsago Copyright, plagiarism and the Internet https://www.theguardian.com/technology/blog/2013/jan/31/internet-copyright-law
#10yrsago Whitepaper on the 3D printing, patents, trademarks and copyrights https://web.archive.org/web/20130201091642/https://publicknowledge.org/Copyright-3DPrinting
#5yrsago Investors throw $300m at dog-walking startup that hired ex-CEO of fraudulent anti-fraud company Lifelock https://www.businessinsider.com/wag-raises-300-million-from-softbank-hires-hilary-schneider-as-ceo-2018-1
#5yrsago Australian government’s worst-ever state-secrets leak: accidentally selling filing cabinets full of classified docs in a surplus store https://www.abc.net.au/news/2018-01-31/cabinet-files-reveal-inner-government-decisions/9168442
#5yrsago Automating Inequality: using algorithms to create a modern “digital poor-house” https://memex.craphound.com/2018/01/31/automating-inequality-using-algorithms-to-create-a-modern-digital-poor-house/
#5yrsago Tory Council Leader’s son gets plum job with government contractor, teen constituent damned as an “appalling little child” for asking about it https://kingstonmatters.wordpress.com/2018/01/31/responding-to-kevin-davis-statement/
#5yrsago CDC chief Brenda Fitzgerald quits after outed for buying into a tobacco company https://thehill.com/policy/healthcare/371592-cdc-head-resigns-after-report-she-traded-tobacco-stocks/
#5yrsago In-depth investigation of the Alibaba-to-Instagram pipeline for scammy crapgadgets with excellent branding https://www.jennyodell.com/museumofcapitalism_freewatch.pdf
#1yrago Podcasting about Pixsy, the copyleft trolls who tried to shake me down https://pluralistic.net/2022/01/31/heel-turn/#pixsy
#1yrago Grappling with Big Wrestling https://pluralistic.net/2022/01/31/heel-turn/#do-the-crusher
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alishaaishu2000 · 17 days ago
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Biomaterials
Biomaterials are engineered substances designed to interact with biological systems for medical, environmental, or industrial applications. They can be natural, synthetic, or a combination of both, offering versatility in applications such as tissue engineering, regenerative medicine, drug delivery, prosthetics, and implants. With advancements in nanotechnology and bioengineering, biomaterials are being tailored for biocompatibility, biodegradability, and specific functionalities, revolutionizing healthcare and sustainability.
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ikno-io · 19 days ago
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Explore the transformative potential of 3D printing in various industries, including healthcare and automotive, while understanding its working, advantages, and future impact. read the full article: https://bit.ly/4iklhRg #3DPrinting #Technology #Innovation #Manufacturing #Science #Gadgets read more: what is 3d printing
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bdb-india · 25 days ago
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BDB is  a Industrial market research companies in India
BDB India Private Limited is a leading global business strategy consulting and market research company in India. Since 1989, BDB has been providing clients with solutions to expand their businesses in the Indian and international marketplace. We are an ISO certified company. BDB India is the leading global business strategy consulting and market research firm for automotive industry. BDB is a Industrial market research companies in IndiaView More at: https://bdbipl.com/
TRENDS AND TRANSITIONS IN CONSTRUCTION IN INDIA
As we approach 2024, the building construction sector is on the verge of a sea change. Sustainable practices and technological breakthroughs have the potential to reshape the landscape, promoting innovation and changing established norms. In this blog article, we will look at the major trends and changes that will shape the industry in the future year. In comparison to the previous year, the construction industry entered 2023 with a 7% increase in nominal value added and a 6% increase in nominal gross output. Nominal construction spending continued to rise in the third quarter of 2023. However, assuming current patterns in real GDP data continue, it is vital to emphasize that much of the topline growth will most likely be driven by price inflation rather than volume. In addition to dealing with continued inflation, the industry is dealing with price instability in raw materials and rising labor expenses. Another key concern that continues to influence the sector is the persistent shortage of trained workers.
The construction sector in India consists of urban development and real estate. The former includes water supply, transportation, schools, and healthcare, while the latter includes residential, office, and hotel space. With a positive prognosis for the construction industry, there is room for innovation and improvement. This is where technology can help to accelerate and improve efficiency.
2024 WILL BE THE YEAR OF HIGH-TECH CONSTRUCTION, FUELED BY THE FOLLOWING TECHNOLOGIES
Augmented Reality(AR)and Artificial Intelligence(AI)  AR and AI are two cutting-edge technologies that are transforming the construction industry. AR overlays digital information onto the real world, while AI enables machines to perform tasks that would normally require human intelligence. AR creates interactive 3D models and provides digital instructions, improving design and safety. AI automates tasks, predicts maintenance, and identifies risks, improving efficiency and quality. As these technologies continue to evolve, they are likely to become even more essential in the construction industry, enabling construction professionals to work smarter and more effectively
Generative AI
Generative AI is a cutting-edge technology that streamlines the design process by delivering extremely efficient and imaginative designs in less time. It creates several design solutions that meet particular needs by considering building codes and other constraints. It may also analyze previous data to identify and mitigate prospective construction risks. It is one of the powerful technologies that is revolutionizing the industry’s design process, resulting in more innovative, efficient, and cost-effective designs.
Building Information Modelling (BIM)
It is a sophisticated technology that allows architects, engineers, and construction experts to communicate in real-time on a project, anticipate difficulties, and optimize building performance. Although it has been available for several years, BIM is predicted to become more common in construction in 2023 because it provides easier cooperation and communication among project stakeholders, resulting in enhanced project results and lower costs. BIM is an important tool for the construction sector since it allows professionals to collaborate effortlessly and produce better buildings.
3Dprinting
This is a groundbreaking technique that has generated a variety of objects ranging from models to entire buildings. IIT-Madras, for example, has India’s first 3D-printed house. In Ahmedabad, the Indian Army also unveiled the world’s first 3D printed residential unit, a disaster-resistant construction. We anticipate to see more companies experimenting with 3D printing to manufacture structures and components this year.
Drones
Drones, also known as unmanned aerial vehicles (UAVs), have changed the way building sites are surveyed and inspected. They provide a variety of advantages, including better safety, faster data collecting, and cost savings. Drones with high-resolution cameras may take comprehensive photographs and videos of building sites, offering significant insights that can assist project managers and engineers in making educated decisions.
View More at: https://bdbipl.com/
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neosciencehub · 2 months ago
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Researchers Alleviate Swallowing Difficulties with 3D Printed Foods
Researchers Alleviate Swallowing Difficulties with 3D Printed Foods @neosciencehub #neosciencehub #science #research #3DFoodPrinting #3DPrinting #ProteinFactory #Israel #NSH
In an astonishing development, researchers at the University of the West of England (UWE Bristol) have achieved a significant milestone in the field of nutrition and healthcare. Through their pioneering work during mid of October, 2024, they have successfully harnessed 3D printing technology to produce custom meals tailored for individuals with dysphagia, a condition characterized by swallowing…
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machinedalal · 7 months ago
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The #3Dprinting materials market is witnessing significant growth because of the growing demand from healthcare, automotive, aerospace & defense, and consumer goods.
#print #didyouknow #trivia #machinedalal
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the-wormwormworm · 8 months ago
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3D Printing (Part 1)
3D Printing #FOANed #nurseeducator #nursing #healthcare #3Dprinting
The last few weeks I have started to revisit 3D printing as a learning project. A video by Roy Cannaday using 3D printing to enhance engagment in gaming really got me back interested in this area. Since previous posts on 3D Printing in Healthcare and Maker Movement the cost and quality of printers has dramatically reduced so it is more of an option for the average user. This is the start of the…
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rn3dstore · 11 months ago
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Attention Rn4students App is now updated and upgraded! Shop for technology gadgets and nursing accessories. Explore the updated NCLEX Bee Notes and Hive Tech Talk. We love our nursing students and Healthcare Professionals!
#Electronics #Tech #Gadgets #TechSavvy #TechGadgets #ElectronicGadgets #TechGeek #TechLife #SmartHome #HomeTech #ConnectedDevices #digitalproducts #3dprinting #techenthusiast #Gadgets #TechSavvy #TechGadgets #ElectronicGadgets #TechGeek #TechLife #SmartHome #HomeTech #ConnectedDevices #digitalproducts #3dprinting
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techtrendloop · 1 year ago
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Transforming the World: Five Groundbreaking Technologies Reshaping Our F...
#TransformativeTechnologies #GameChangers #InnovationFrontiers
Friendsl! Here is another awe-inspiring video, titled "Transforming the World: Five Groundbreaking Technologies Reshaping Our Future," we dive into a world of innovation and explore the game-changing technologies that are revolutionizing the way we live, work, and interact. Join us as we embark on a journey to uncover five transformative technologies that are reshaping our future. From scientific breakthroughs to technological advancements, these innovations hold the potential to redefine industries, enhance our lives, and solve some of humanity's most pressing challenges. We'll introduce you to each technology and showcase its profound impact on various aspects of society. Witness the power of artificial intelligence and machine learning as they revolutionize industries like healthcare, finance, and transportation. Discover the potential of blockchain technology to transform sectors such as finance, supply chain management, and digital identity verification. We'll also delve into the exciting world of renewable energy and explore how solar, wind, and other clean energy sources are shaping the future of sustainability. Witness the immense possibilities of 3D printing as it revolutionizes manufacturing, architecture, and even healthcare. Throughout the video, we'll highlight real-world applications, success stories, and the potential challenges associated with each technology. We'll discuss the implications for the job market, ethics, and the need for responsible and inclusive development. Our goal is to inspire and educate, showcasing the transformative power of human innovation and inviting viewers to imagine the possibilities that lie ahead. Together, let's explore the cutting-edge technologies that are shaping our future and driving us toward a more connected, sustainable, and prosperous world. Remember to like this video, share it with fellow technology enthusiasts, and subscribe to our channel for more captivating content that explores the frontiers of innovation. Join us as we unravel the transformative potential of these five groundbreaking technologies and envision the world of tomorrow. #TransformativeTechnologies #GameChangers #InnovationFrontiers #ArtificialIntelligence #MachineLearning #Blockchain #RenewableEnergy #3DPrinting #FutureOfTechnology #Sustainability #ResponsibleDevelopment #TechEnthusiasts #InspiringInnovation #HumanProgress #ReshapingIndustries #ImaginingTheFuture
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