Future-proof: Modular design, fully customizable and upgradeable. Free remote software upgrades for life.
Precise: Options to go down to 4 microns positional accuracy.
Reliable: Proven 24x7x365 operations in industry setup.
Flexible: Accepts multiple materials. Fully customizable and upgradeable at any time. No hard installation. No special requirements..
Post-sales: Developed and manufactured in India, backed by experienced staff to ensure zero downtime.
Fast: Get upto 10 times faster rate
- Configurable build volume
- The star is made-to-order to your precise build volume requirements, and can be as small as 500 x 500 x 500 cubic mm, to as large as 2.25 x 2.25 x 2.25 cubic meters, and everything in between!
- This means that, depending on your application, you can order the right star for general prototyping jobs (a perfect cube), foundry patterns and moulds generation (square cuboid where large height isn’t required), automobile parts (more wide than tall, to accommodate parts like bumpers and dashboards), aerospace components (more tall than wide to produce tubular structures and blades), medical prosthetics applications (more tall than wide) and everything else, including your business.
- Interchangeable tool heads
- The tool head is what brings the core “making” functionality to the Aha Star. It specifies what materials can be used for the job, the speed of material deposition, the number of materials that can be used simultaneously, and how can the machine can recover from material flow errors when they happen.
- Please note that for the Aha Star:
- Here’s a video explaining various toolhead options with the Aha Star.
- The basic toolhead
- The basic toolhead is the entry-level option, to get you started with the Aha Star. It features air-cooled radiation, and offers a material deposition rate of 15 cc per hour. You can use plastics upto a melting point of 300 degrees C.
- The standard toolhead
- The standard toolhead unlocks the power of the Aha Star, and features a high-flow rate material output option of a respectable 150 cc per hour. It features nozzles with a working temperature of upto 500 degrees C, so basically you can use all the imaginable thermoplastics with the Standard toolhead.
- Customized toolhead
- A customized toolhead depending on your requirements can be developed and used with the Aha Star! Sky is the limit, literally. Think speed, colours, materials, composites, clay, plastic pellets, cement, chocolate, or any application that you have in mind!
- Temperature controlled bed and build chamber
- High performance engineering plastics like ABS, PC and Ultem are challenging to process because they undergo deformations like warpage, shrinkage and de-lamination while 3D printing.
- To achieve great results with such materials, the Aha Star offers you a temperature controlled bed and build chamber. This enables maintaining the perfect environment for the material being printed, both during and after printing, ensuring accurate and strong prints even with the most challenging of the materials.
- Choice of servo drive systems
- The drive system moves the toolhead as per design to be created. Conventional 3D printers use “stepper” drive system, which makes the toolhead move accurately, but can’t notice the motion that is actually happening. It blindly executes the commands coming from the design program, heedless of real-world motion errors.
- The Aha Star offers you a range of drive systems for choosing. Here’s a video explaining the same.
- Stepper drive
- Stepper drive is your vanilla 1:256 micro-stepped, heavy torque and heavy duty drive option. It comes as the economical option to get you started, and gives you perfect toolhead motion with precision. The only thing that it does not do is – it can’t detect and correct the motion errors.
- Medium accuracy
- Good performance in small and medium sizes build volume
- Can’t detect and correct motion errors
- Servo drive
- Choice of servo drive puts the Aha Star in a different league of 3D printers – those that know what they’re doing. Aha Star equipped with a servo drive can detect and handle drive system errors like print slippage and other errors which might cause the print to fail.
- A servo drive consists of an AC motor paired with a rotary encoder, enabling the drive computer to detect the actual motion of motor, and verify it against the commanded motion.
- Here’s what it gives you:
- High Accuracy – 20 microns resolution.
- Drive system error detection and handling.
- Dual Servo drive
- The Dual Servo drive adds in another feedback mechanism – the linear motion sensor, along with the rotary motion sensor. This enables the drive computer to detect the actual position of the toolhead. Hence, the drive computer can measure and correct for deviations from the expected position in all aspects.
- Ultimate accuracy – 4 microns resolution.
- Very reliable performance.
- Self correcting for all drive system errors.
Price : 1200000.00
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