WHAT WE OFFER
Industries
Automotive
Additive manufacturing, or 3D printing, has made a significant impact on the automotive industry. One of the primary benefits is the ability to produce complex and lightweight components that were previously difficult or impossible to manufacture using traditional methods. This leads to improved vehicle performance and fuel efficiency.
3D printing accelerates the prototyping process, allowing automotive companies to quickly design, test, and refine new parts and models. This rapid prototyping reduces development time and costs, enabling faster innovation cycles.
Customization is another advantage, as additive manufacturing allows for the production of bespoke parts tailored to specific customer needs or preferences. This can enhance the customer experience by offering more personalized options.
Additionally, the technology contributes to more sustainable practices in the automotive industry. By using only the necessary amount of material and reducing waste, 3D printing supports environmentally friendly manufacturing processes. Additive manufacturing can streamline supply chains by enabling on-demand production and reducing the need for large inventories of spare parts. This flexibility can lead to cost savings and increased efficiency in logistics and inventory management. Overall, additive manufacturing offers the automotive industry new opportunities for innovation, efficiency, and sustainability.
Defense
Additive manufacturing allows for the rapid creation of prototypes, which can significantly speed up the development of new defense technologies. This capability enables quicker iterations and testing, reducing the time from concept to deployment.
The technology allows for the production of complex, customized components that would be difficult or impossible to produce with traditional manufacturing techniques. This is particularly useful for creating specialized parts with intricate geometries, which can enhance the performance of defense systems. By reducing material waste and eliminating the need for specialized tooling, additive manufacturing can lower production costs. It also allows for on-demand manufacturing, which can reduce inventory costs and the need for large storage facilities. The ongoing development of new materials for additive manufacturing opens up possibilities for creating parts with enhanced properties, such as increased strength, improved heat resistance, or reduced radar visibility.
Consumer Goods
Additive manufacturing, commonly known as 3D printing, has significantly impacted the production of consumer goods. This innovative approach allows for more customization and personalization of products, enabling manufacturers to meet individual customer preferences efficiently.
Additive manufacturing also reduces waste, as it uses only the necessary materials to create each product, contributing to more sustainable production practices. Additionally, it offers faster prototyping and production times, which allows companies to bring new products to market more quickly. This technology has the potential to revolutionize supply chains by reducing the need for large inventories, as products can be manufactured on demand. Overall, the integration of additive manufacturing in consumer goods production presents numerous opportunities for innovation and efficiency improvements.
Tooling, Molding
3D printing significantly reduces the time required to produce tooling and molds. Traditional methods can take weeks or months, while additive manufacturing can accomplish this in days, accelerating the overall production timeline.
The initial costs of creating molds with traditional methods are high, especially for complex designs. Additive manufacturing reduces these costs by minimizing material waste and eliminating the need for expensive tooling processes. It allows for the creation of complex geometries that are difficult to achieve with conventional methods. This flexibility enables the production of more efficient and optimized tools and molds, which can improve the performance of the final product.
A wide range of materials can be used in additive manufacturing, allowing for the creation of tools and molds that meet specific strength, durability, and thermal resistance criteria.
By using only the necessary materials, additive manufacturing reduces waste, contributing to more sustainable production practices in the tooling and molding industry.
Overall, additive manufacturing enhances the efficiency, flexibility, and sustainability of tooling and molding processes, offering significant advantages in terms of speed, cost, and innovation.
SERVICES
How can we support you?
Product Development
& Prototyping
Secure your leadership with professional rapid prototyping, reduce time to market and save money at the same time. We offer you the entire value chain for additive or conventional prototyping and pilot production in plastic and metal materials. From a raw individual part to a fully machined and finally assembled assembly, we deliver prototypes or pilot series directly to your table in a matter of hours.
Advanced mathematical simulations
- Topology optimization
- Strength Stiffness
- Durability / Fatigue
- Structural Simulations
- CFD
- Thermal analyses
- Multiphysics optimization
Serial
Production
Additive manufacturing meets individual customer requirements, develop promising business models or transform entire supply chains. Freedom of design is the key to bringing new features and designs, shortening lead times and reducing the amount of material . Whether it is a single end product, a small series or a large quantity, at TITAM you will find solutions for the production of series products in plastics and metal materials in top quality.
Take advantage of our comprehensive capabilities to produce your serial parts.
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ABOUT US
We are a team
of professionals
with over 15 years of experience in the product development and the application of AM technologies in commercial uses. TITAM concentrates on Additive Manufacturing for both metallic and polymer materials.
GALLERY
PROJEKT
Matematická simulace a topologická optimalizace 3D tištěných dílů. Tvorba technologického postupu рго 3D tištěné díly. Hodnocení digitální zralosti podniku dle EDIH.
je spolufinancován Evropskou unii. Číslo projektu EDIH1.5.01.2 Brain_4_Industry a 101 084 053 – EDIH B4. Projekt Brain 4 Industry je zahrnut do programu Digitální Evropa (European Digital Innovation Hubs – DIGITAL-2021-EDIH-01) a je jeho účelem je primárně vytvoření a činnost Evropského centra digitálních inovací (dále jen „EDIH B4I“), podporovaného z programu Digitální Evropa, spočívajícív poskytování služeb za účelem podpořit soukromý a veřejný sektor v jejich digitální transformaci.
PARTNERS & CUSTOMERS
Billing address
TITAM s.r.o.
Štěpánská 540/7
120 00 Praha 2 – Nové Město
Czech Republic