Selective Lazer Melting (SLM)
Selective Laser Melting or Metal Powder Bed Fusion is a 3D printing process which produces solid objects, using a thermal source to induce fusion between metal powder particles one layer at a time.
Most Powder Bed Fusion technologies employ mechanisms for adding powder as the object is being constructed, resulting in the final component being encased in the metal powder. The main variations in metal Powder Bed Fusion technologies come from the use of different energy sources; lasers or electron beams.
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Types of 3D Printing Technology: Direct Metal Laser Sintering (DMLS); Selective Laser Melting (SLM); Electron Beam Melting (EBM).
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Materials: Metal Powder: Aluminum, Stainless Steel, Titanium.
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Dimensional Accuracy: ±0.1 mm.
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Common Applications: Functional metal parts (aerospace and automotive); Medical; Dental.
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Strengths: Strongest, functional parts; Complex geometries.
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Weaknesses: Small build sizes; Highest price point of all technologies.
Selective Lazer Melting (SLM)
Selective Laser Melting or Metal Powder Bed Fusion is a 3D printing process which produces solid objects, using a thermal source to induce fusion between metal powder particles one layer at a time.
Most Powder Bed Fusion technologies employ mechanisms for adding powder as the object is being constructed, resulting in the final component being encased in the metal powder. The main variations in metal Powder Bed Fusion technologies come from the use of different energy sources; lasers or electron beams.
-
Types of 3D Printing Technology: Direct Metal Laser Sintering (DMLS); Selective Laser Melting (SLM); Electron Beam Melting (EBM).
-
Materials: Metal Powder: Aluminum, Stainless Steel, Titanium.
-
Dimensional Accuracy: ±0.1 mm.
-
Common Applications: Functional metal parts (aerospace and automotive); Medical; Dental.
-
Strengths: Strongest, functional parts; Complex geometries.
-
Weaknesses: Small build sizes; Highest price point of all technologies.
Selective Lazer Melting (SLM)
Selective Laser Melting or Metal Powder Bed Fusion is a 3D printing process which produces solid objects, using a thermal source to induce fusion between metal powder particles one layer at a time.
Most Powder Bed Fusion technologies employ mechanisms for adding powder as the object is being constructed, resulting in the final component being encased in the metal powder. The main variations in metal Powder Bed Fusion technologies come from the use of different energy sources; lasers or electron beams.
-
Types of 3D Printing Technology: Direct Metal Laser Sintering (DMLS); Selective Laser Melting (SLM); Electron Beam Melting (EBM).
-
Materials: Metal Powder: Aluminum, Stainless Steel, Titanium.
-
Dimensional Accuracy: ±0.1 mm.
-
Common Applications: Functional metal parts (aerospace and automotive); Medical; Dental.
-
Strengths: Strongest, functional parts; Complex geometries.
-
Weaknesses: Small build sizes; Highest price point of all technologies.
''Engineering is the closest thing to
magic that exists in the world"
Computational Fluid Dynamics is the the latest design and Analysis approach to solve the problems of fluent flow across a profile, within or on the component or inside a system.
COMPUTATIONAL FLUID DYNAMICS (CFD) approach in Product Design
CFD is simulation software used by the FORCYST to validate our concepts and designed product. It is the best tool to demonstrate the effect of the fluid flow at various temperatures with variable velocities.
We normally use these kind of analytical design approach for the product which has pressures variations at multiple points, heat variation at inlet and outlet in a system as well as fluid flow effect on the entire component or system.
The Computational Fluid Dynamics Design approach though adds an additional cost to the development of the product or system but it saves the unwanted repeatable cost on prototypes and thus saves substantial time. The chances of success through CFD validation approach is more than the traditional methods of the design. Our team has successfully executed projects for the Automobile and Medical industries by improving the effectiveness and efficiency.
For the Computational Fluid Dynamics, our technical team of qualified engineers understands the requirements from the client and forms problem statement. Once the problem statement is defined we set the boundary conditions and then carry out the CFD analysis accordingly. At Forcyst, we carry out the CFD analysis through internally accepted CFD softwares and generate a valid report for the same so as to prove and validate the performance our designed product. We take the CFD projects from any stage of the product development cycle. If you are looking fr such specific services, to get it touch with our support team at support@forcyst.com.
COMPUTATIONAL FLUID DYNAMICS (CFD)
The accuracy and fidelity of modern Computational Fluid Dynamics methods has significantly increased the level of design insight available to design engineers throughout the design process and therefore greatly reduces our clients exposure to technical risk when developing thermal and fluid-based products.
The use of CFD as a key tool in our design process leads to far fewer physical prototypes being necessary during development, far less prototype testing and consequently reduces the time-to-market and cost-to-market substantially.
BENEFITS OF COMPUTATIONAL FLUID DYNAMICS INCLUDE:
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Increased insight into systems that may be difficult to prototype or test through R&D
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Ability to identify performance issues during the design process allowing changes and optimization
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Accurately predict mass flow rates, pressure drops, mixing rates, heat transfer rates & fluid dynamic forces
APPLICATIONS INCLUDE:
1. Aerodynamics
2. Industrial Fluid Dynamics
3. Fluid Structure Interaction
4. Heat Transfer
5. Hydrodynamics
Carrying out accurate and technically meaningful computational fluid dynamics simulations requires highly skilled and experienced engineers.Whilst modern simulation software are incredibly powerful and invaluable to the design process the data output is only as could as the accuracy and validity of the data entered into the system. Our team have the experience to identify anomalies and will always back up the data with hand calculation were necessary.