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Munich, Germany
1-10 Employees
2018
Das GRDXKN®-Team folgt dem Anspruch von Ehrlichkeit und Transparenz. Die neu entwickelte Technik GRDXKN® alias Grid Skin ermöglicht den Aufdruck von Funktionen. Die Struktur-Drucktechnik GRDXKN® unterstützt weiche Textilien partiell durch besondere Stütz-Architektur. Durch den GRDXKN® Strukturdruck verbessern sich die akustischen Eigenschaften von Gewebe hinsichtlich des Schallschutzes: Akustische Dämpfung oder Verbesserung des Klangs durch veränderte textile Oberflächen. Die gezielt aufgebrachte GRDXKN®Struktur schützt bestimmte Körperstellen vor Abkühlung. Grundsätzlich sind die mit GRDXKN alias Grid Skin bedruckten Textilien bei 60 Grad waschbar, abhängig vom bedruckten Textil. Der Struktur-Druck von GRDXKN® erzeugt eine konkave Oberflächenstruktur. Die Drucktechnik GRDXKN® alias Grid Skin kombiniert bewusst unterschiedliche Materialien.
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GRDXKN 4D PRINTING TECHNOLOGY
... GRDXKN 4D PRINTING ...
Belfast, United Kingdom
11-50 Employees
We provide consultancy and training services for industry, academics and scholars. Committed to quality research, training, consultancy, and contract R&D. Please browse our site to get a better idea of who we are and what we do. Our lab offers honest, impartial advice & best-in-class solutions. Our studies include: conceptualization, formulation / manufacturing, physicochemical characterization using state-of-the-art techniques, Regulatory & Quality analysis, computational modelling, in vivo, ex vivo, and in vitro evaluation. Our Lab, has been recognised by Expertscape as world leaders in 3D Printing. Cardiovascular diseases constitute a number of conditions which are the leading cause of death globally. Examples of Lab Press Mentions in Additive Manufacturing.
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3D Printing & Bioprinting Lab | Belfast
... 3D & 4D Printing Methods for Pharmaceutical Manufacturing and Personalised Drug Delivery: Opportunities & Challenges. ...
Gurugram, India
1-10 Employees
2021
We here at BLA Research are creating a space to uncover the high-potential opportunities and recommend an action plan backed by deep research and analysis to leverage those opportunities that would enable our clients to make quantified decisions. Our methodology incorporated in the reports considers various factors considering the forecasts, business dynamics, strategies, supply chain, trade routes, regulatory framework to provide precise market intelligence and a 360-degree perspective of the market based on demand and supply globally, regionally, and at country level by applications, products, pricing, and trade routes. Our USP lies in conducting market viability analysis for technologies still in the nascent stages of their lifecycle—in-depth analysis of secondary data and future predictions provided by our highly qualified and experienced analysts. Our research is back by interviews with industry veterans, enabling analysing a high level of disruptions in the market. BLA Research founded by three industry veterans with cumulative experience of more than forty years.
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Featured
4D Printing in Healthcare Market by Component (Equipment, 3D printer SMM, Hydrogels, Software, Service, Cells), Technology (FDM, SLS, Stereolithography), Application (Research Model, Implant), End user (Hospital, Dental Lab, ASC) – Global Forecast to 2030
... 4D Printing in Healthcare Market by Component (Equipment, 3D printer SMM, Hydrogels, Software, Service, Cells), Technology (FDM, SLS, Stereolithography), Application (Research Model, Implant), End user (Hospital, Dental Lab, ASC) - Global Forecast to 2030 - BLA ...
Boonton, United States
51-100 Employees
2016
We deliver market research reports on time everytime. We are always dedicated to turn decisions into actions. We deliver best in-class market research reports in addition to consultancy services. We are known for custom research studies on diverse markets. We diffuse all our services for enabling a hassle-free and centralized market research solution for all kinds of needs. With a team of 500+ Analysts and subject matter experts, VMR leverages internationally recognized research methodologies for data collection and analysis, covering over 15,000 high impact and niche markets. This robust team ensures data integrity and offers insights that are both informative and actionable, tailored to the strategic needs of businesses across various industries. Verified Market Research® is also a member of ESOMAR, an organization renowned for setting the benchmark in ethical and professional standards in market research.
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Global 4D Printing Market Size By Material (Programmable Carbon Fiber, Programmable Wood-Custom Printed Wood Grain, Programmable Textile), By End User (Medical, Aerospace And Defense, Automotive), By Geographic Scope And Forecast
... Global 4D Printing Market Size By Material (Programmable Carbon Fiber, Programmable Wood-Custom Printed Wood Grain, Programmable Textile), By End User (Medical, Aerospace And Defense, Automotive), By Geographic Scope And ...
A top Brooklyn Night club and restaurant can only expect the same service from a printing company. Choosing Printing New York was the right choice. From our staffs business cards and club fliers to our menus and even Medial walls, Printing New York always came through with creative design and quality printing and of course all that on timely manner. Printing New York helped with design and printing. All we can say is thank you for the great work and quick turn around.
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Printing New York |
... 4D Business Cards Color Printing ...
Pune, India
11-50 Employees
2021
We provide research-based solutions and support to companies so that they can make right business & investment decisions faster based on real facts. We leverage cross industry knowledge, expertise in research and advanced analytics capabilities while working with leading global players across sectors and add value to their business. Nectarwise Market Research LLP is a global business research and consulting company. We work with leading global clients and help them by providing them with actionable insights by identifying key growth areas innovative products, defining value proposition by monitoring competition and customer segmentation, analyzing high volumes of structured and unstructured data to identify risks, and enhance customer experience, and ensuring compliance. Nectarwise market research provides top-notch market research studies, publishing over 200 reports each year, covering 35 industries, on a global level. Nectarwise Market research provides you with the ability to identify your exact customer, their requirements, and expectations. This is done by collecting and analyzing data about the product, service, and market.
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NectarWise Market Research
... Global 4D Printing In Healthcare ...
Thessaloniki, Greece
1-10 Employees
2006
Our new paper on the augmented fabrication of masonry structures is available here! You may find our new paper on Hutong neighbourhood grammar here! Our new book chapter ‘Rethinking the Brick: Developing a File to Fabrication Framework for Mortar-Free, Robotic Masonry Wall Assembly’ has been published by Springer Nature. Great start into 2023 by publishing our first paper in the high-rated Journal Automation in Constructions. Many thanks to all reviewers for their constructive feedback! You may find the full paper here!
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Article on 4D printing published by Springer Nature
... Article on 4D printing published by Springer ...
United Arab Emirates
1-10 Employees
2019
GREENSOFT , GREENHARD & GREENCLOUD are our discussion for GREEN IT. This story was originally published by : The Guardian. Climate crisis is only becoming grave affecting individuals, communities, economies, and ecosystems around the globe. To reduce emissions and adapt to climate impacts and reduce global warming world bodies are putting conscious effort. According to a report National Academies of Science (NAS), USA suggests to set up a large-scale Solar geoengineering research program, focused to cool Earth either by adding small reflective particles to the upper atmosphere, or by increasing reflective cloud cover in the lower atmosphere, or by thinning high-altitude clouds that can absorb heat.
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DGTAL.AI
... 4D Printing ...
Frankfurt, Germany
1-10 Employees
1993
Three main prizes were awarded on June 26, 2023, which will be publicly presented on September 9, 2023 at the Kunstverein Offenbach/Main, Germany as part of an exhibition. There were a total of 27 finalist works from 157 submissions from all parts of the world. Reitoft spricht in einem LinkedIn-Post einen wichtigen Aspekt an: Wie gut ist unsere Fachpresse-Berichterstattung für Print & Publishing (inkl. Zu oft werden Pressemeldungen der Industrie unverändert publiziert sowie Berichterstattung von Anbietern bezahlt. Zur Qualität des Fachjournalismus orientiert sich Morten an den bekannten allgemein gültigen „Sieben News Criteria“:.
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valuetrendradar | Print&Transformation for the Digital Age
... “The possibilities of 4D printing are phenomenal.” ...
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Software - 3Printr.com
... Zortrax develops 4D Printing Technology with ESA ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for 4D Printing
Country with most fitting companies | Germany |
Amount of fitting manufacturers | 4 |
Amount of suitable service providers | 8 |
Average amount of employees | 1-10 |
Oldest suiting company | 1993 |
Youngest suiting company | 2021 |
4D Printing refers to the advanced process that combines 3D printing technology with programmable materials, allowing the creation of objects capable of changing shape or properties over time in response to external stimuli such as temperature, light, and moisture. This innovative approach extends the capabilities of 3D printing by adding the dimension of time as the fourth dimension, wherein the printed objects can evolve or transform autonomously. The significance of 4D printing lies in its potential to revolutionize various industries, including biomedical, aerospace, automotive, and construction. For instance, in the biomedical field, it paves the way for the development of smart implants that can adapt to the body's changes over time, improving patient outcomes. In construction, materials that can adjust to environmental conditions could lead to buildings that are more energy-efficient and adaptable to climate change. The ability of 4D printed objects to self-assemble or change according to specific needs not only reduces labor and production costs but also opens up new possibilities for designing materials and structures that are more sustainable, efficient, and tailored to their environment. The integration of time-responsive behavior into materials through 4D printing marks a significant leap forward in manufacturing and material science, heralding a future where objects can adapt, repair, or modify themselves autonomously.
1. Dynamic Adaptability
4D printing technology introduces objects that can change shape or properties over time, responding to external stimuli such as temperature, light, or moisture. This dynamic adaptability offers significant advantages in creating materials and structures that can self-assemble or adjust to environmental conditions, reducing the need for manual intervention and increasing their functional lifespan.
2. Cost Efficiency
The ability of 4D printed objects to transform allows for the design and production of more efficient materials. By minimizing the use of resources and optimizing design for specific functions, 4D printing can lead to significant cost savings in materials and manufacturing processes, particularly for complex, multi-functional objects.
3. Environmental Sustainability
4D printing promotes sustainability through its efficient use of materials and its potential to create objects that can adapt to changing environments. This adaptability reduces the need for multiple products by enabling a single item to perform various functions over its lifecycle, thereby decreasing waste and promoting a more sustainable approach to product design and manufacturing.
4. Innovative Applications
The innovative nature of 4D printing opens up new possibilities across several industries, including healthcare, construction, and aerospace. For example, in healthcare, 4D printing can be used to create implants that change shape inside the body, offering personalized treatment solutions. This breadth of application demonstrates the versatile advantage of 4D printing over more traditional manufacturing methods.
While evaluating the different suppliers make sure to check the following criteria:
1. Technology Expertise
Ensure the supplier has extensive knowledge and experience in 4D printing technologies, including software, materials, and the 4D printing process itself.
2. Material Quality
Verify that the supplier offers high-quality materials that are suitable for 4D printing applications, with a focus on durability and functionality.
3. Innovation Capability
Assess the supplier's ability to innovate and adapt to new trends in 4D printing technology, which is crucial for staying ahead in a rapidly evolving field.
4. Customization Options
Check if the supplier provides customization options to meet specific project requirements, allowing for greater flexibility in design and application.
5. Cost-Effectiveness
Consider the cost of services and materials offered by the supplier, ensuring they provide value for money without compromising on quality.
6. Customer Support
Evaluate the level of customer support provided, including technical assistance, to ensure reliable service throughout the project lifecycle.
In the manufacturing sector, 4D printing is revolutionizing the way companies approach production. This technology enables the creation of materials that can change their shape or properties in response to external stimuli such as temperature, light, or pressure. As a result, manufacturers can produce parts that self-assemble or adapt to their environment, reducing labor costs and improving production efficiency. The construction industry benefits from 4D printing through the development of smart infrastructure. Materials printed with this technology can adapt to environmental changes, enhancing durability and longevity. For instance, pipes that expand or contract based on water temperature or pressure can significantly reduce the risk of bursting, leading to more resilient infrastructure systems. In healthcare, 4D printing opens up new possibilities for personalized medicine. It allows for the creation of medical devices and implants that can adjust to the patient's body or change shape over time to provide targeted treatment. This capability paves the way for more effective and tailored healthcare solutions, improving patient outcomes. The aerospace industry employs 4D printing to create components that can adapt to varying atmospheric conditions. This innovation leads to more efficient aircraft designs, as parts can automatically adjust to optimize performance during flight, significantly enhancing fuel efficiency and overall aircraft performance.
4D printing, an evolution of 3D printing, introduces the dimension of time by enabling printed objects to change shape or function in response to external stimuli such as temperature, light, or moisture. As of 2023, 4D printing is generally considered to be at a Technology Readiness Level (TRL) of 4. This classification stems from the technology's progression to small-scale, experimental validation in laboratory settings. At this stage, the fundamental principles underlying 4D printing have been tested and proven through initial experimentation, showcasing the potential for creating objects that can adapt or self-assemble over time. However, it remains at TRL 4 due to several technical challenges that need addressing before it can advance further. These challenges include the development of more robust and versatile smart materials, refinement of the printing processes to enable mass production, and overcoming limitations related to the complexity of designing objects that can reliably perform as intended under varying environmental conditions. The ongoing research and development efforts are focused on overcoming these hurdles, aiming to enhance the predictability, efficiency, and range of applications for 4D printing, which are critical steps towards moving this innovative technology to higher levels of readiness for real-world application.
In the Short-Term, 4D printing is poised to revolutionize the way materials are engineered, moving towards more sustainable and efficient manufacturing processes. This phase will likely see the development of smart materials capable of responding to environmental stimuli such as temperature and light, leading to their initial application in fields like aerospace for self-assembling structures. The focus will be on refining these materials for practical, real-world applications. The Mid-Term phase of 4D printing development is expected to usher in significant advancements in the medical and construction sectors. Innovations will likely include the creation of dynamic constructs that can adapt or self-heal, such as pipes that can expand or contract to prevent leaks or building materials that adjust to changing weather conditions. This period will also see the integration of 4D printing into biomedicine, enabling the fabrication of organs and tissues that can dynamically respond to bodily needs. Looking towards the Long-Term, 4D printing is anticipated to achieve groundbreaking milestones in material science and computational algorithms, leading to the widespread adoption of programmable matter. This era will explore the realms of creating materials that can change form, properties, or functionality on demand, paving the way for innovations such as clothing that adjusts to climate, shape-shifting furniture, or even self-assembling and repairing machines and structures. These advancements will redefine the boundaries of design, engineering, and functionality, marking a new era of manufacturing that aligns closely with sustainability and adaptability.