In a recent Tip of the Week video over on our YouTube channel (https://youtube.com/eacpds) I talked about a new feature in PTC Creo 5.0 – Topology Optimization. Topology optimization has been around for about 20 years, but primarily as stand alone solutions. In spring 2018 PTC announced they had fully embedded a solution from the folks over VR&D into their flagship CAD tool.

This is big news because it allows every user to easily optimize designs in new ways; whether designing for traditional manufacturing or additive manufacturing / 3D printing. Light weighting a part or assembly while maintaining structural integrity is an important part of modern product development. Optimizing topology reduces shipping weight and costs, may improve user experience, and lowers material costs. I’m sure there are other benefits, but those alone can help companies compete in today’s global economy.

After talking with some of our technical resources and engineers, it sounds like the built in Creo 5.0 tool does a fantastic job shrink wrapping/finalizing the optimized geometry to ensure the surfaces can be solidified and don’t have any weird overlapping surfaces or gaps. Most topology optimization tools kick out facetted surfaces that still need to be smoothed out in another tool. Creo turns the optimized geometry into a Creo Freestyle surface that can be easily solidified. This is especially important when optimizing parts for 3D printing.

We’d love to show you this Creo functionality live. So, after you watch the tip of the week video, head over to our contact page to request a demonstration.

Part II – (You can read part 1 here) Evolving your BoM strategy, tools, and abilities. “EBoM vs. MBoM” transforms into “EBoM integrates with MBoM.” This integration includes associativity to one another, time saving tools, elimination of error prone manual steps & more.
Imagine eliminating the common disjointed processes, additional time, and error prone manual steps involved in the creation of downstream BoMs from Engineering into Manufacturing, Production and Service management.

Concepts & examples such as Manufacturing Bill of Materials (MBoM) are shown below, all under one system, integrated & associated, and created with a single click. Then they’re easily edited to meet downstream BoM needs.

BoM creation can be streamlined & improved by associatively creating downstream BoMs (S or M or other) and eventually, connecting them to your ERP system. For now, we’ll focus on the first step of this business transformation concept; the creation of the second, or downstream M or SBoM, starting with a simple EBoM example, created in minutes, and easily viewed & tracked.

Who should be involved in this topic at your company? Ideally, your Configuration Manager role should be leading or heavily involved in this process.

The starting point & tool is PTCs Windchill and your willingness to change & improve.

Once your CAD data is ready to check into Windchill, there is an option (check box) to auto-associate the EBoM to a downstream BoM such as an MBoM. It is a 1:1 relationship for starters. Options can branch out from here into many CM (Configuration Management) directions. Such as multi-level BoM management, uses, visualization and more.

Once created, you can manipulate & edit the default 1:1 downstream BoM to your needs; adding bulk items, manufacturing specific sub assemblies, (build throughs) even new service end items. You can also flatten out an EBoM to meet assembly or production needs. BoM items such as adhesive, lubricant, paint or coatings, packaging items, all things that typically are not on an EBoM, can and do belong on the M or SBoM.

If this fits your company’s needs? consider using Windchill’s auto-associate feature.

This article covers a couple examples. If this is not deep enough…here are even more tools to consider. Topics such as creating associated manufacturing instructions, work instructions, work plans and more. Change Management is shown as reference only, it is an optional element of Windchill for another blog.

There are many options to this topic, these are common examples that fit a lot of needs and is considered a starting point.

1^stexample shows all BoM & change components all connected in one system vs. manually done in silo fashion, which is industry’s most common method today. These examples are shown in PTCs Windchill reference viewer tool, which ties all related objects into view for easy visibility with just a few clicks.

1. 1. EBoM structure (highlighted in green) 
2. 2. Change requests, notices and tasks (highlighted in red) 
3. 3. MBoM structure (highlighted in blue) with their own, or connected Change Management Requests, Notices & Tasks

2^ndexample shows an EBoM, SBoM (Service Kit in this example), with a saleable end item service kit, as well as components for service or manufacturing BoMs. It also shows Changes, these can also be created, edited, routed, approved or rejected, and even include the SBoM if need be. 

Please connect with EAC to learn more, to discover your company’s transformation opportunities with an assessment, maybe see a demo, or attend a webinar. The goal is to help your company transform how you design, manufacture, connect to and service your products.

Designing a product without integrating simulation into your workflow is like giving a concert but never rehearsing. Why would you do that?

Top Performing organizations meet cost targets, remain on spending plans, and beat their due dates. One way they accomplish these objectives is by utilizing simulation tools to empower their organizations. Here’s 10 ways simulation will put you ahead.

1. Simulation software = better design decisions

Simulation tools enable engineers to have better insights throughout the design process.

For example, with the use of simulation engineers can conduct sensitivity studies, analyze trade-offs, remove excess materials and even evaluate motion envelopes.

By using simulation during concept design, engineers are able to explore and consider more options.

These options permit engineers to see the influences and effects of different design guidelines and limitations.

Testing many conditions, simulation software allows engineers to narrow down choices for the best concept.

This is how engineers are able to make better, highly informed design decisions.

2. Simulation helps avoid over engineering

By simulating your designs in a variety of environments, you can easily determine what is necessary within your design and what is not.

This helps engineers eliminate excess materials, and ultimately create better products.

3. With Simulation software, you find problems earlier  (while they’re still cheap to fix)

Engineering simulation software helps organizations discover hidden interactions that can cause big problems.

How? It’s simple.

If the materials you’re using to build and design a product can’t perform under stress, you can find out early in the design process.

This helps your design team get it right the first time.

4. Simulation tools improve product quality

Simulation tools enable engineers to analyze and validate the performance of 3D virtual prototypes before the part itself is created.

With the ability to validate and test designs early in the design process, engineers are able to create and evaluate more concepts and ideas within allotted time frames.

This means more ideas, more designs, better quality and ultimately a better product.

5. Simulation software improves product reliability

With simulation software, results are accurate and reliable and can be easily calculated with very little input from engineers.

By using simulation-driven design to optimize product performance, quality and durability- you can be sure that your is more than reliable.

6. Simulation tools cut product development time

Organizations are able to reduce product development time with simulation tools because less time is needed for physical testing, fixing late problems, and rework.

When design engineers know how to run simulations, they understand the requirements for the analysis model. By taking these requirements into consideration as they design, model, and build products, the analysis becomes easier and takes less time to prepare.

7. Innovation is increased with simulation

With the help of simulation tools, engineers can also be more innovative.

Time-savings allotted from simulation and virtual prototypes enable design engineers to evaluate more design iterations.

8. Simulation helps you get to market faster

Simulation tools help streamline product development activities by enabling concurrent design and analysis.

How? It’s simple.

With simulation, the analysis process is faster. For instance, you can forget any reliance on 3^rd parties for analysis because you are able to now do it in-house.

By identifying and eliminating errors early in the design process you will resolve errors early, eliminating late-stage changes and tedious rework. This will also greatly speed up your processes.

Simulation tools empower design engineers to make better design decisions.

Better design decisions ultimately produce more competitive products that cost less and get to market faster.

9. In the long run, simulation tools save costs

Simulation helps engineers make better design decisions at much less cost because they can subject virtual models to real-world forces.

By using fewer prototypes and focusing simulation on areas of high sensitivity and fatigue, an organization can save time and money.

For example, engineers can reduce product costs by optimizing designs to meet multiple objectives, such as maintaining a product’s strength while reducing its weight.

This is exactly how the use of analysis and early optimization to properly size geometry can reduce material costs.

Aside from material costs, how do product failures, warranty, and repair cost impact company profits? Tremendously.

Using simulation tools organizations can avoid costly recalls and reduce after-market service, warranty, and repair costs.

It’s easy to see how simulation tools will save you money simply by eliminating the need for project re-work, prototyping, and over-engineering 

10. More competitive products

Simulation software provides engineers with additional insight, which leads to better design decisions and product optimization.

By using simulation, design engineers are able to develop higher quality products that are easily differentiated in the market.

The rapid development of technology has transformed traditional modeling methodologies and provided new ways to deliver digital 3D models and product data. Computer-aided design (CAD) now gives users the tools used in all stages of product development from concept development to final presentation. Not only are the products changing with technology advances, the tools we use to design the products are changing too.
So how exactly is augmented reality changing the way you do your work? Here are 3 ways Augmented Reality is reinventing your design process.

AR makes your workspace way more flexible

You won’t have to be constrained to your desk to design products anymore. AR allows you to take your design beyond where you traditionally have done the bulk of your work. With the help of smart glasses, tablets, and mobile phones, you can design, and experience your designs anywhere you want whether it’s at your desk, in a conference room, or on a shop floor.

AR allows you to fully conceptualize designs

Digitally generated 3D models created within CAD software have a limitation – the rendering of the design is still stuck inside of a flat screen. Augmented reality allows you to fully conceptualize designs when they’re superimposed on the physical world. Augmented reality allows you to sit inside your design as you’re creating it – enhancing engineers’ ability to evaluate and improve designs. This lets you fully appreciate characteristics of a design at full, partial, or expanded scale in its intended setting.

AR reduces time and money spent on prototyping

Augmented reality gives designers and engineers the ability to view accurate representations of finished products in real-world scenarios without expensive prototypes. It eliminates the constant need to build multiple and costly prototypes because you’re able to see any design flaws in a half virtual, half physical world. By the time you’re ready to send your draft to a 3D printer or manufacturer, you’re already very confident in your design.

If you’re not already using AR in your design process, it probably won’t be long before you are. Companies like PTC are leading the way to innovation and new design processes by integrating Augmented Reality (AR) capabilities into their CAD software, Creo Parametric. Creo AR allows you to rapidly create AR experiences directly from Creo, easily manage and control viewer access, rapidly distribute and share AR experiences, and effectively communicate and collaborate design information.

Start creating, publishing, and sharing augmented reality experiences with Creo AR – download the datasheet to learn more.

On March 19th, 2018, PTC released the newest version of Creo Parametric – Creo 5.0. It brought with it new functionality and tools to improve design and help engineers and designers bring the physical and digital worlds together with augmented reality (AR) and smart, connected design.

“Product design is fundamentally changing, and Creo continues to evolve to meet the needs of our customers. With Creo, companies can go from the earliest phases of design to a smart, connected product,” said Brian Thompson, Senior Vice President, CAD Segment, PTC. “Improved functionality and new capabilities, like additive manufacturing, set Creo apart, and give companies a true competitive edge all the way from concept to manufacturing.”

The release includes advanced AR capabilities that ease the beginning stages of your product design process. Watch the EAC’s tip of the week on creating AR experiences from Creo here. The newest additions also provide designers and engineers with the tools to increase productivity, improve optimization, and get products to the market faster. So what’s new in Creo 5.0?

Subscription-Only Pricing & Annual Releases

Creo 5.0 and all future releases will only be available as a subscription. Unlike previous releases, there is no perpetual-license pricing available for new Creo Parametric seats. Ask an EAC representative about the current Reactivate Program to move to new Creo versions and packages at up to 23% off the list price of a new subscription license.

In October of 2017, Paul Sagar, VP of Product Management, Creo, announced the new annual release schedule for Creo software. The announcement showcased that going forward, PTC will release their CAD software each year to keep their customers up-to-date with the newest technology.

Creo 5.0 New Capabilities & Extensions

Topology Optimization Extension

Often times it’s a challenge to get past barriers to innovation with new physical designs due to already existing designs and practices. The new Creo Topology Optimization Extension automatically creates optimized parametric geometry based on a defined set of objectives and constraints. It’s a huge time-saver. The extension accelerates innovation without the limitations of existing designs and thought processes. It helps create improved designs without the over-engineering, additional weight, and additional material found in some designs.

Additive and Subtractive Manufacturing for metal 3D printing

Creo 4.0 enabled users to design optimize, and additively manufacture parts without the need to use multiple softwares – but now the Creo Additive Manufacturing Plus Extension for Materialise in Creo 5.0 extends support for metal 3D printing. New tools in the extension help generate and optimize custom support structures and weight/material saving lattices.

Mold Machining Extension

The new Creo Mold Machining Extension provides dedicated high-speed machining capabilities optimized for the creation of molds, tools, dies, electrodes, and prototype machining. These new capabilities can be used in complex machine designs to generate optimized design paths.

Creo Flow Analysis Extension

The Creo Flow Analysis Extension is a computational fluid dynamics (CFD) solution allows users to integrate analysis early and often to understand product functions and performance. The extension allows designers and engineers easily and quickly simulate fluid flow directly within Creo.

Productivity Improvements

Creo 5.0 includes many productivity enhancements such as an improved user interface, geometry creation with sketch regions, subdivisional modeling, surfacing, sheet metal tools, and volume helical sweeps.

Creo 5.0 also offers the Creo Collaboration Extension for Autodesk Inventor to help organizations consolidate onto a single CAD system and work with even more vendors/suppliers.

This reduces cost and effort associated with maintaining multiple systems and enables better collaboration throughout an enterprise.

Bring your design process to the next level with Creo 5.0.

There are a lot of things in life we as humans seem to put on autopilot. We seem to do things the same way, around the same time, even sometimes in the same place. Despite our best efforts to be different, we find ourselves thinking, behaving, and feeling the same way we did yesterday and the even days, months, and years before that. It’s time to challenge your ways.

Look at the way you do things for instance.

If you’re anything like me, you have routines for almost everything you do, from the time you wake up to the time you go to work. We often get so accustomed to how we do things, finding the reasons why we do them becomes a challenge. It is easy to overlook our other options if we fail to recognize the benefits of change. It is this very mindset that holds us, and the rest of the world from reaching our full potential.

Aside from personally challenging our ways, we should also be challenging our business processes.

It is my belief that companies, more than individuals, tend to do what they’ve always done. We become comfortable in the systems we know, the methods we have created, and the processes we have established. This is when we fail to recognize opportunity in organizational change.

Although the concept of change can be frightening for some the reality is, success doesn’t originate within our comfort zones.

If we never reevaluate or challenge the way we do things, how would we ever get better? I believe the answer is, we wouldn’t. As the quote often attributed to Albert Einstein states, “insanity is doing the same thing over and over again and expecting different results.”

We must acknowledge our propensity to build repetitive cycles in order to successfully grow our businesses, change and be different. After all, change is the vital element for both success and survival.

With the rapid advancement of technology our world is changing more than ever.

This means our organizations must quickly change, too. It is crucial that we optimize our business practices by looking at our operations and leveraging the resources we use to get things done. In order to grow and prosper, we must recognize our patterns and learn how to change them.

Taking an engineering department for example, your in-house staff may know your business or a particular CAD (Computer Aided Design) package, but are they experts at prototyping, simulation, electronics, and new materials? This is example is where utilizing a fresh perspective could more than benefit your company.

Now look at the systems your company currently depends on.

The methods by which you currently transfer documents, communicate through departments, and transmit information. These are the systems we ultimately forget to challenge. As we become comfortable in our ways, we forget our competitors might be challenging theirs. You might think to yourself.., ‘So what if our department communication may not be the most efficient process’ , but what if speeding up communication would bring your cost down by up to 10 percent! What if your communication systems boosted your competitive advantage, and ultimately accelerated your time to market? These everyday, repetitive processes are what I am challenging you to re-think.

Organizations benefit from change.

A change within an organization results in new ways of looking at customer needs, new ways of delivering customer service, new ways of strengthening customer interactions and new products that might attract new markets. But what many fail to realize is that many of these are driven from internal practices.

If you can imagine the kind of businesses that will all be able to help you improve the products you’re making, then you can see a world where people are able to find a lot more success.

Change is what allows us to explore new opportunities, learn new skills and exercise our creativity.

If nothing else, I challenge you to be fearless in the pursuit of what sets you and your solutions apart. I challenge you to re-think your ways and become the best you can be.