The Aeon R main injector has undergone 14 design, print, and test iterations—something nearly impossible with traditional manufacturing methods that involve thousands of precision components. Going from a clean sheet design to testing in just three months – each iteration improves performance and reliability.
Join the team: https://lnkd.in/gvMmUin5
The space industry has been printing injectors for over 10 years. I handled and fired one for the first time at Rocket Lab in 2013. Nowadays, just about everyone does it, from university groups to primes.
How long until we should say "Traditional rocket engines use PBF for injectors"?
What is rapid injection moulding?
Ever wondered how certain intricate products are made with such precision? It's thanks to a process like Rapid Injection Moulding. This revolutionary manufacturing method is used to quickly create limited runs of parts, perfect for prototyping, testing, and small-scale production.
Rapid Injection Moulding involves feeding material into a heated barrel, mixing it up, and forcing it into a mould cavity. Once cooled, the finished shape is removed. The great thing about this method is the speed and consistency in producing complex shapes with high-quality finishes.
In industries like healthcare, automotive, and electronics, this method is extensively used to create single prototypes for testing or limited runs for market launch.
Do you use Rapid Injection Moulding in your industry? How has it impacted the production process? Share your experiences!
#RapidInjectionMoulding#Manufacturing#Prototyping#ProductionProcess
What is rapid injection moulding?
Ever wondered how certain intricate products are made with such precision? It's thanks to a process like Rapid Injection Moulding. This revolutionary manufacturing method is used to quickly create limited runs of parts, perfect for prototyping, testing, and small-scale production.
Rapid Injection Moulding involves feeding material into a heated barrel, mixing it up, and forcing it into a mould cavity. Once cooled, the finished shape is removed. The great thing about this method is the speed and consistency in producing complex shapes with high-quality finishes.
In industries like healthcare, automotive, and electronics, this method is extensively used to create single prototypes for testing or limited runs for market launch.
Do you use Rapid Injection Moulding in your industry? How has it impacted the production process? Share your experiences!
#RapidInjectionMoulding#Manufacturing#Prototyping#ProductionProcess
Rapid prototyping technology advent of time is not long, but because it brings huge profits of manufacturing makes this techniques are applied widely, especially to die design and manufacture brought a leap. Rapid prototyping technology can precisely manufacture the mold cavity, the XingXin and also can be applied directly to injection process producing plastic samples, so as to identify and correct the mistakes. Because of the rapid prototyping manufacturing this new technology of application, make die design and manufacture gradually tends to digital, quickly, making mould manufacturing in short cycle, lower the cost of process, greatly step forward.
According to mould material, the production cost, RP, the prototype of materials, production batch, mould accuracy requirement has developed a variety of technological process.
#manufacturing#rapidprototyping#cnc#machining#cncmachiningparts#injectionmold
What do you think would make you more motivated to provide quality service to more customers? 🤔
More and more customers recognize our service and quality, which is a source of confidence and motivation for us, driving us to continuously pursue excellence.
🤙🏼us😎 #GCPrototype#cncmachining#3dprinting#market#manufacturing#marketresearch#OnTimeDelivery
Experienced in CNC machining services utilizing 5-axis, 4-axis, and 3-axis machines, encompassing CNC milling and CNC turning, as well as lathe operations. Proficient in collaboration with German market.
🌟 Unlocking Innovation with Vacuum Casting 🌟
Looking for a rapid and cost-effective way to bring your product designs to life? Consider vacuum casting! Here's why it's the go-to choice for many innovators:
1️⃣ Rapid Prototyping: With vacuum casting, you can quickly create high-quality prototypes for testing and validation, speeding up your product development cycle.
2️⃣ Cost-Effective: Save on tooling costs compared to traditional injection molding methods, making vacuum casting ideal for small to medium production runs.
3️⃣ Versatility: Vacuum casting accommodates a wide range of materials, colors, and finishes, allowing you to explore different design options without compromising on quality.
4️⃣ Precision and Detail: Achieve intricate details and complex geometries with precision, ensuring that your prototypes closely resemble the final product.
5️⃣ Low Risk: Test the market viability of your product designs without committing to expensive tooling, minimizing risk and maximizing flexibility.
Ready to take your product ideas from concept to reality? Contact us to learn more about our vacuum casting services and start innovating today!
#VacuumCasting#RapidPrototyping#ProductDevelopment#Innovation#Manufacturing#Prototype#Design
Excited to share my recent insights from the Additive Manufacturing world 😎 A common question I get from industry peers is: Can we get these components into service, and is it realistic? My answer: Absolutely, YES and YES! Just like with forged or cast components, we can perform rigorous full scale tests and analyses to provide data-backed proof and confirmation.
At Stress Engineering, we support our customers in writing specifications and testing their AM products for future applications. Are you considering this for your business? Let's connect!
Check out this insightful blog by Patrick Boster!
continuing the previous post ..
Mounting Machine
Once the printed PCB has been confirmed to have the correct amount of solder paste applied it moves into the next part of the manufacturing process which is component placement. Each component is picked from its packaging using either a vacuum or gripper nozzle, checked by the vision system and placed in the programed location at high speed.
There is a large variety of machines available for this process and it depends greatly on the business to what type of machine is selected. For example if the business is focused around large build quantities then the placement rate will be important however if the focus is small batch/high mix then flexibility will be more important.
read full our history 👉 https://shorturl.at/FLVy4
CEO, CTO at Dawn Aerospace
2moThe space industry has been printing injectors for over 10 years. I handled and fired one for the first time at Rocket Lab in 2013. Nowadays, just about everyone does it, from university groups to primes. How long until we should say "Traditional rocket engines use PBF for injectors"?