Podcasts

Podcast series: Advanced machine engineering (Part 2) – leveraging multi-disciplinary design

Summary

In our last podcast, we talked about the evolution of technology within the machinery industry and we highlighted three key differentiators for advanced machine engineering solutions: multi-disciplinary design, virtual machine simulation and commissioning, and multi-disciplinary BOM and configuration management.


Today, in our second podcast of this series, we are discussing the first key differentiator and we are learning how machine manufacturers are leveraging multi-disciplinary design to make their manufacturing more efficient.


Bill Davis is the Director of Industrial Machinery & Heavy Equipment Solutions at Siemens Digital Industries Software, working to help industrial machinery customers and heavy equipment customers improve innovation and profitability through the application of the Siemens portfolio. His background is in automation, converting, and packaging machinery. His 30 years of experience in engineering and management positions have shaped how he helps their customers and their go-to-market strategy.


So, listen to the second part of the Siemens Podcast on Advanced Machine Engineering, where we discuss the significance of multi-disciplinary collaboration for machine builders and we also expand on the benefits of implementing this approach.


Questions I ask:

  • What exactly is multi-disciplinary design? (01:55)
  • How would you respond to someone who might minimize the value that you just described for multi-disciplinary collaboration? (04:28)
  • Do you have any examples for any companies that have embraced Advanced Machine Engineering as a strategy and if so, what kind of results they might have seen? (14:08)

In this episode, you will learn:

  • The meaning of the Mechatronics Concept Designer. (06:59)
  • The dangers of having too much integration too quickly. (08:01)
  • The benefits for those who are incorporating a multi-disciplinary collaboration into their manufacturing process. (10:47)

Connect with Bill:

We are witnessing a revolutionary overhaul of technological progressions in the landscape of industrial machinery in manufacturing. It is a challenging endeavor to design, validate and manage modern manufacturing and assembly operations to achieve high-quality while optimizing costs.

In our second podcast, of this series on Advanced Machine Engineering, we are learning how machine manufacturers are leveraging multi-disciplinary design to make their manufacturing more efficient. We investigate a multi-disciplinary collaboration for machine builders and examine more thoroughly the machine design process and its benefits.

Bill Davis
Bill Davis, Director of Industrial Machinery and Heavy Equipment Solutions at Siemens Digital Industries Software

We are joined again by our special guest and engineering expert, Bill Davis, Director of Industrial Machinery and Heavy Equipment Solutions at Siemens Digital Industry Software. His 30 years of experience in engineering and operations management includes more than 20 years in industrial machinery.

In this second podcast we focus on multi-disciplinary design, one of the key differentiators of advanced machine engineering, which also includes virtual machine simulation, and commissioning and multi-disciplinary BOM and configuration management.

Multi-disciplinary design – where today meets tomorrow

In defining multi-disciplinary design, we assess the complexities of building a machine, including engineering the design and manufacturing. Most companies focus on CAD and manufacturing parts within tolerance for everything to function mechanically, and the mechanical arrangement and assembly relates to the machine. It’s a mechanical piece of equipment, like an auto or an airplane.

However, all mechanics and motors now relate to software, driven by PLC codes. There’s a method for blending capabilities and skillsets in a collaborative environment that pays dividends with a high-quality output of the machine design. It’s becoming an art form as an integrated solution. So, there’s much harmony in the multi-disciplinary design.

To improve the speed and efficiency of your machine design process, watch our Advanced Machine Engineering – Start your digital transformation journey today webinar.

To hear more on this enlightening topic, from my conversation with Bill Davis, listen to this second podcast in the series on Advanced Machine Engineering.

Also, access this podcast via AppleStitcherSpotifyCastboxTuneIn or Google.

Listen to podcast01podcast03 and podcast04 from this series.

About our expert:
Bill Davis is the acting Industrial Machinery and Heavy Equipment Industry leader for Siemens Digital Industries Software. His experience and insights have been acquired from a career spanning 30 years in engineering and operations management with machinery and heavy equipment companies.  Bill holds a master’s degree in Business Administration from Marquette University, with a concentration in Operations Management and Strategic Marketing, as well as a Bachelor of Science degree in Mechanical Engineering from Milwaukee School of Engineering.

This is the second in a series of four podcasts on advanced machine engineering.

Digital Transformation Podcast

Digital Transformation Podcast

The Digital Transformation: Solutions for Industrial Machinery Podcast by Siemens Digital Industries explores the advantages of smart manufacturing, a digitalized product development strategy and the solutions it offers for the Industrial Machinery industry.

Digital Transformation Podcast Podcast

Digital Transformation Podcast

The Digital Transformation: Solutions for Industrial Machinery Podcast by Siemens Digital Industries explores the advantages of smart manufacturing, a digitalized product development strategy and the solutions it offers for the Industrial Machinery industry.

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Bill Butcher

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This article first appeared on the Siemens Digital Industries Software blog at https://blogs.stage.sw.siemens.com/podcasts/digital-transformation/podcast-series-advanced-machine-engineering-part-2-leveraging-multi-disciplinary-design/