Industrial
GAFER TECH
S O L U T I O N S
AM/3D
CAD CONSULTANTS
 Assembly Drawing - Horizontal Slab Platform Airfab 2019 Modelled in Advance Steel |  Connection Details Horizontal Slab Assembly Airfab 2019. Modelled in Advance Steel. |  Deck Assembly with Railing. Airfab 2019 Modelled in Advance Steel. |
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 Caravan Modelled in Advance Steel |  Design of Cooling Channels for Plastic Injection Moulding Traditional Y Cooling System to help reducing cycle times in plastic injection moulding - Design completed in Creo Parametrics + Autodesk Simulation Moldflow Insight. |  Design of Cooling Channels for Plastic Injection Moulding Conformal Cooling Channels. Achieved using advanced manufacturing techniques. |
 Air Box Lid Modelled in Creo Parametrics. |  Air Box Lid Modelled in Creo Parametrics. |  Air Box Lid Generation of CNC Machine Data and Finite Analysis of Honda Airbox Lid. |
 Air Box Lid Generation of CNC Machine Data and Finite Analysis of Honda Airbox Lid. |  Underground Mining Lamp Modelled in Solidworks |  Underground Mining Lamp Modelled in Solidworks |
 Underground Mining Lamp Modelled in Solidworks |  Underground Mining Lamp Modelled in Solid Works |
* The images in this website are a sample of our work. The name of the projects/clients has been removed for confidentiality.
Product Design and FEA
Services
Product Design & AM
Engineers make use of 3D visualisation and analysis tools with superior core modelling. Most of the modelling packages provide in-built finite element analysis and data management functionalities. Some of the benefits of 3D modelling in Product Design are:
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Minimisation of product mistakes by accurate design solutions.
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3D modelling allows engineers to easily develop a full range of products, from single parts to complex assemblies.
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3D models ensure accurate fit and function of parts to comply with engineering design.
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3D facilitates the visualisation and interpretation of simulation results.
Additive Manufacturing(AM)
3D Printing and others
Additive Manufacturing (AM) creates objects by generating cross-sectional layers. The three-dimensional model is made using computer-assisted software. The model is then sliced into layers by specialised software. Each layer is successively deposited on top of the proceeding one to form a physical 3D geometry.
AM has the ability to produce customised parts, using very little equipment and a great range of materials, including traditional such as (photopolymer resins, ABS, titanium, SS), Functional Graded Materials (FGM), and Composites.
AM can fabricate complex geometries that are not easy to achieve with conventional techniques. This technology is currently used in multiple ways in the Aerospace, Automotive, Tools and Moulds making, Electronics, and Medical industries.
Our company provides professional advice to businesses wishing to adopt Advanced Manufacturing Technologies to enhance their productivity.
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Complete 3D models and Digital Prototypes
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BOM, Saw and Drawing lists.
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Parts, Subassemblies and Assemblies drawings.
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Files upload in Cloud to allow easy collaboration in an online workspace.
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Option Studies (provide recommendations of the most adequate Additive Manufacturing (AM) process based on the product requirements.
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Pilot trials (based on the Options Studies).
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Preparation of CNC Files for machining.
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Preparation of STL Files for 3D printing.
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Support and advice in the selection of Additive Manufacturing Processes and Systems.
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Use CAD/CAM tools to create mould and cavity components for plastic injection moulding.
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Prepare basic CNC machining, bi-metallic injection moulding and design of conformal cooling channels to reduce cycle times for plastic injection moulding.
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Preliminary FEA analysis and results
Other Services
We also provide professional advice in the adoption of other Virtual Digitalisation technologies, such as 3D Scanning, Photogrammetry, Virtual and Augmented Reality.