We have much experience with hardware prototyping of plastic parts, metal parts and electronic parts. Electro-mechanical prototypes typically require software prototyping, which we also have much experience with.
We are confident we can deliver rapid prototyping solutions for you. The following sections outline some key phases.
Our core business is focused on projects that have a break-even point, such as resale via mass production. To learn more about this see our page on Seacombe New Product Development.
Product Design Phase (Computer modeling from scratch or 3D scanning)
During this phase we assess your requirements to determine if we are best to design your model from scratch using 3D CAD tools, 3D animations tools, or perform a 3D scan an mock up model.
While 3D scanning sounds like an easy option, it is not perfect, and requires much cleaning up of the model. Further it produces a file with point cloud data, which then must be converted to a typical CAD file (e.g. .igs, .stp, and/or .stl). It is because of these reasons, it is generally quicker to create the design from scratch (unless the target requirement is just to reprint the scanned object without any additional design features - which is a service we're not keen on providing).
In terms of electronics - generally we design custom electronics to get the unit cost down, but in some cases we might use off-the-shelve electronics (e.g. Proof-of-concept prototype).
Product Prototyping Phase
Plastic mechanical parts will likely be 3D printed via various methods such as Fused Deposition Modeling (FDM), Stereolithography (SLA), Selective Laser Sintering (SLS), Multi Jet Fusion (MJF) or CNC'ed in some cases. The material options are kinda endless from rigid to rubbers, such as ABS, PLA, Polycarbonate (PC), Acrylic (PMMA), PET, PEEK, Polyamide aka Nylon (PA), Glass reinforced nylon (PA66+GF), Polyurethane (PU), Polypropylene (PP), Polyvinyl Chloride (PCV), Thermoplastic Elastomer (TPE), Thermoplastic Olefin (TPO), Thermoplastic Polyurethane (TPU), PEBA 2301, Nitrile Rubber (NBR), Polytetrafluoroethylene aka Teflon (PTFE) and more. There are also various finish options such as transparent, transulent, colours, electro-plating, reflective mirror, and screen-printing graphics.
Metal mechanical parts can be 3D printed also, however in our opinion CNC is still the better option. The material options are also kinda endless such as aluminum (AL), steel, stainless steel (SS), brass, etc. There are also various finish options such as blackening, electro-plating (Chrome-plating, Nickel-chrome plating, Zinc-plating, Galvanizing), anodized (black, matte clear), and chromating conversion.
We've also made prototypes using materials such as Carbon Fiber, Fibreglass, Glass wool, DuPont, Vectran, conductive thread, and look forward to playing with Graphene one day.
Electronic parts will involve manufacturing of bare PCBs, then assembling PCB surface-mount (SMT) and through-hole (THT) components via soldering methods such as a stencils, reflow oven, IR heat lamp, hotair rework station, soldering iron, etc.
Hardware bugs are likely, and we'd hack things to make the working prototype. During this process we'll make notes on the design changes required for the next revision.
Rapid 3D Prototyping for Businesses in Seacombe, Gippsland, Victoria, Australia
At COLETEK, we empower businesses in Seacombe and beyond to rapidly iterate and materialize their innovative ideas through our advanced 3D prototyping services. Our team of experienced engineers and product developers understands the unique challenges faced by businesses in the region and can help you transform your concepts into tangible prototypes with speed and efficiency.
Our comprehensive approach to rapid 3D prototyping encompasses every step of the process, from initial requirements capture and design decisions to prototyping, iteration, integration, testing, and production-readiness planning. We leverage cutting-edge technologies and materials to deliver high-quality prototypes that meet your specific needs and industry requirements.
We recognize the importance of remote collaboration and seamless communication, especially in regional areas like Seacombe. Our team works seamlessly with clients through secure online platforms and regular progress updates to ensure transparency and alignment throughout the process. We also offer periodic design reviews and support across metropolitan and regional clients, tailoring our approach to your unique circumstances.
With over 150 successful R&D and new product development projects under our belt, COLETEK has a proven track record of delivering innovative solutions across industries. Our in-house prototyping lab enables us to rapidly iterate and refine your ideas, ensuring that you get the most out of your prototyping experience.
Contact us today to discuss your rapid 3D prototyping needs and discover how COLETEK can help you bring your groundbreaking products and solutions to market faster and more efficiently.
Let’s build something remarkable together.
Contact UsRapid 3D Prototyping for Seacombe – Our Clients: Big Brands & Small Businesses
Rapid 3D Prototyping for Seacombe – Selected Client Testimonials
This is a sample of public feedback from a broader range of client work.
COLETEK proved to be the perfect choice to help us kick our project off. Their analysis of the problem we presented with them with, and their suggestions for the most efficient and effective way to achieve a solution prevented us wasting time and money heading down the wrong path. I'd recommend COLETEK without any reservations.
Working with Luke has been a standout experience. His technical ability is second to none, and he brings a level of dedication and professionalism that makes every project genuinely enjoyable to be part of. Highly recommended.
Founded in 2001, COLETEK is a founder-led Australian engineering company helping clients develop new products, prototypes, electronics, embedded systems, IoT products, AI-enabled devices, intelligent machines, and robotics systems.
We work across electronics, embedded firmware, IoT connectivity, software, mechanics, and real-world testing, with strong experience in multidisciplinary product development, connected devices, computer vision, precision motor control, robotics, and autonomy.
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