Since 1980, PremaTech Advanced Ceramics has been manufacturing CVD SiC, as well as machining and grinding high-purity silicon carbides and other advanced ceramic materials and components for applications in semiconductors, commercial, aerospace & defense, life sciences, medical, optics, R&D, and power generation.
We use science-based manufacturing methods supported by ISO 9001-certified management systems to ensure that customers' orders meet the most demanding specifications. Our dedication to best practices is strengthened further by a commitment to meeting ITAR (International Traffic in Arms Regulations) and CCR (Central Contractor Registration) requirements so the components we manufacture may be used in the most sensitive applications.
PremaTech is a woman-owned business which receives annual certification from the Women's Business Enterprise National Council.
Our modern manufacturing facility is located in the Worcester Airport Industrial Park in Worcester, MA, about 40 miles west of Boston. The plant is equipped with a state-of-the-art metrology laboratory, a central coolant recovery system and a variety of modern machinery dedicated to the production of components made from advanced materials.
One position available on 1st shift (7:00 a.m.-3:30 p.m.)
One position available on 2nd shift (3:00 p.m.-11:00 p.m.)
Operate CNC Machines in line with workload requirements, ensuring that all parts are machined to meet customer requirements and strict quality standards.
A manufacturer needed 10 different tapered ceramic components- the smallest parts used in the product. A previous supplier had been providing parts of inconsistent quality, and the customer asked PremaTech to produce and deliver superior ceramic components that the specifications required.
A team of PremaTech engineers defined critical dimensions for success in the manufacturing process, designed a fixture to keep the metalized surface centered while grinding the taper and met with the metalizing vendor to discuss important surface features. Those collaborative efforts led the vendor to recommend a nickel chrome coating instead of nickel for achieving desired resistivity. PremaTech engineers also worked collectively to determine an optimal adhesive thickness down to 0.0005".
Two months later, PremaTech delivered 20 ceramic parts for First Article Inspection (FAI). The customer approved the FAI shipment and proceeded to order 700 parts. PremaTech also codified in-process steps, providing the customer with documented evidence of our standard quality control procedures.
By working with PremaTech, the manufacturer is experiencing an assembly yield in the 95% range, compared to an average of 50% with the previous supplier. This 45% gain is allowing the customer to enhance profitability and on-time delivery.
PremaTech has continued working with the customer to achieve additional process improvements.
A major defense contractor approached PremaTech for assistance with the production of protective closures for electronics equipment. The customer developed a proprietary advanced ceramic material and needed help fabricating a prototype, as well as with production.
PremaTech machined Modulus of Rupture (MOR) bars to support material testing. PremaTech also took the customer's extremely rough blanks and precision-ground the inner and outer 3-D surfaces to the stringent specifications developed by the U.S. Department of Defense's prime contractor, providing large quantities of prototype parts during product development.
After the customer approved the prototypes, PremaTech ramped up to full production, providing exceptional product quality, and outstanding flexibility and responsiveness with regard to order turnaround times and quantities requested by the customer.
Finally, to the customer's extreme satisfaction, PremaTech performed 3-D inspections on the component's CAD-designed surface. Those tests yielded 100% compliance with quality requirements.
PremaTech's ability to meet the customer's stringent specifications, conduct prototype testing and engage efficiently in R&D activities has given the customer a reliable strategic partner that can work with them at every stage of development and production.
Based on 3-D inspection results, the customer trusts PremaTech implicitly to manufacture components of such high quality that the customer has eliminated acceptance testing, which has accelerated the customer's order turnaround times.
A publicly traded manufacturer of analytical instruments approached PremaTech Advanced Ceramics about some critical fluid handling components from Zirconia for use in a next generation analytical device.
A team of PremaTech engineers studied the customer's specifications and recommended several types of zirconia that could work for the particular application. PremaTech then fabricated prototype parts from each grade of material.
After the customer selected the material, PremaTech worked closely with the customer's engineers to optimize several critical features and dimensions. This collaboration led PremaTech to fabricate several design variations that maximized manufacturability and performance. The customer proceeded to finalize the design, allowing PremaTech to transition to volume production for one of the components.
With PremaTech's help, the customer was able to fill orders successfully for its next-generation analytical device, and first-year shipments have exceeded the customer's forecast significantly.
As PremaTech supports the customer's volume production requirements for one of the components, it is conducting R&D related to the other component.
PremaTech's capacity to support R&D and production simultaneously exemplifies the company's ability to give customers a high degree of expertise and outstanding value at all stages of the product life cycle.
We are seeking an Entry Level Machinist responsible for operating machinery and tools to produce parts from hard materials, adhering to precise specifications as well as machining small batches or individual parts as required.
Required skills and responsibilities include:
Work 2nd Shift (3:00 p.m.-11:00 p.m.)
Train on 1st Shift (7:00 a.m.-3:00 p.m.)
Required skills and responsibilities include: