Tag Archives: Quick Manufacturing Solutions

Beyond Proof of Concept: How HARBEC Brings Design, Engineering and Manufacturing Value to Every Part and Project

In September, HARBEC, Inc. proudly celebrates its 39th year in business. We begin by thanking our employees, some who have been with us since day one, for continually evolving, and building a better business and better future in our community. We also graciously thank our customers, suppliers, and service providers who have been mutual partners in HARBEC’s evolution.

For a company that began as a tool and die shop, a great deal has changed in nearly four decades of service. HARBEC’s business resiliency has been enabled by its founder, Bob Bechtold, and the code of conduct for continuous improvement he’s instilled within the business culture. In forty years of business, HARBEC has remained agile, competitive and innovative as it has evolved to serve the needs of its customers, new and old.

Today, HARBEC, Inc. has three principle business units including CNC Machining, Custom Injection Molding, and Rapid Prototyping. Since its inception HARBEC was a trusted precision manufacturer, earning a reputation for paying very close attention to detail, and providing high value service, quality, and superior prototypes and parts. Further, HARBEC was viewed by its customers as a “solutions provider,” a partner that proactively pursued ways to do things faster, better, and at lower cost.That commitment is alive today, particularly as the digital revolution transforms the foundation by which products are designed, developed, and manufactured.

According to Mr. David Anderson, author of “Design for Manufacturability: How to Use Concurrent Engineering to Rapidly Develop Low-Cost, High-Quality Products for Lean Production”,  Design for manufacturability (DFM) is “the process of proactively designing products to (1) optimize all the manufacturing functions: fabrication, assembly, test, procurement, shipping, delivery, service, and repair, and (2) assure the best cost, quality, reliability, regulatory compliance, safety, time-to-market, and customer satisfaction.” Further, Mr. Anderson defines Concurrent Engineering as “the practice of concurrently developing products and their manufacturing processes. If existing processes are to be utilized, then the product must be designed for these processes. If new processes are to be utilized, then the product and the process must be developed concurrently.”

Here at HARBEC, we’ve been practicing DFM and concurrent engineering for decades. Under our own branded nomenclature, Quick Manufacturing Solutions (QMS). Before the ‘maker movement’ became en vogue, characterized by the next generation of industrial designers and inventors, HARBEC was actively servicing its customers as an innovation, DFM, and production house. Like the agile maker movement, HARBEC has embraced digital and software tools, 3D printing, machine learning, and robotics into our operations. What’s more, HARBEC has continuously moved the ticker on innovation, working to improve every process, from design through manufacturing, by integrating our knowledge and experience gathered from forty years of manufacturing excellence.

Over the years HARBEC has developed and implemented new manufacturing processes, and integrated new software, technology, and manufacturing capabilities that allow our designers, engineers, project managers, and operators the ability to design, prototype, sample, and scale products with exemplary attention to precision, speed, quality, and cost.

While HARBEC does a great deal of mid-to-high volume parts manufacturing of custom injection molded and precision machined parts, we’ve invested in and created a specialty for in-house design and rapid prototyping services. Whether your need is one or millions of parts, HARBEC’s team can support your product design, development and manufacturing needs, and deliver upon your goals through a full range of manufacturing capabilities.

 

Design/Engineering Support

Prototype/Production Capabilities

Systems-Level Integration

 3D CAD: SolidWorks 2016

Injection Molding Simulation: SolidWorks Plastics 2016(Flow, Pack, and Warp Analysis)

FEA Software: SolidWorks Simulation

CAM: Mastercam 2017

3D Printing: Materialise Magics

Additive Manufacturing

  • Stereolithography (SLA)
  • Selective Laser Sintering (SLS)
  • Direct Metal Laser Sintering (DMLS)
  • Fused Disposition Modeling (FDM)

Quick Molding Solutions (QMS)

  • Aluminum molds using standard bases
  • Dedicated sampling technicians and presses

CNC

  • High-speed 3 to 5 axis vertical mills
  • Horizontal lathes
  • EDM & Grinding
Carbon-Neutral and Water-Neutral Manufacturing Facility

Robotics and automation

Full in-house capabilities from design through manufacturing, secondary operations and support

  • Product design, prototyping, and manufacturing have each gone digital. The lines between these once disparate silos of product development have been blurred by rapid advancements in digital manufacturing technologies. As the worlds of software and hardware have converged, designers have now become manufacturers, and machine operators have become code writers. This fundamental change is reshaping the future of manufacturing for businesses like HARBEC, and for small and large manufacturers throughout the world.
  • More rapid development and integration of digital manufacturing technologies are reducing, and in some cases eliminating, traditional barriers for transforming an idea into a physical product. Digital manufacturing bridges the technical and communication gaps between designers and manufacturers. As such, entrepreneurs and mature businesses can design and produce functional prototypes in less time than it takes to watch your favorite movie.  With relatively low cost of entry, the makers’ movement has become mainstream, captivating the minds of do-it-yourselfers and professional industrial and product designers.
  • Although having more options for quick design, prototype, and production is all good, scaling up production is an entirely different skill set. Having the right software and equipment can get someone started in rapid prototyping, however, making the leap from printing one dimensionally correct part to manufacturing thousands of precision parts that need to be validated and integrated into a complex product system, requires far greater knowledge and capability.
  • For over 20 years HARBEC has been working with additive manufacturing (AM) technologies, and has also explored ways to envelop AM not only as a capability, but as an integrated manufacturing strategy and process.
  • Our recent work, for example, to incorporate principles of biomimicry into 3D printed injection molds demonstrates how we’ve leveraged prior knowledge, with state-of-the-art AM capabilities, toward enhancing the performance of new-age custom injection molding tools and manufacturing processes.inj_mold_copy_tall_did_you_know_tall_normal
  • Whether the need is for one, hundreds, thousands, or millions of parts – HARBEC’s team evaluates how it can bring unique solutions and value to the customer. By using DFM principles, software tools, and QMS approaches in early-stage product design and prototyping, HARBEC helps customers get their product to market quicker, with less risk and greater value.
  • For additional information, check out HARBEC’s Design Guides related to Additive Manufacturing, Sustainable Product Design, and Injection Molding Part Design and by visiting www.HARBEC.com.