JR Automation, a Hitachi Group Company, leveraged EAC Productivity Apps to solve Windchill PLM frustrations, scale their business operations and improve the shop floor experiences of their engineers. Discover how JR Automation implemented PLM Apps to gain ROI, bring efficiency and clarity for builders on the manufacturing floor, and achieved scalable digital transformation.

Business Initiatives

JR Automation knew the company needed to update operational processes in order to meet and exceed customer expectations. Their goal was to reduce the time it was taking builders and engineers to manage print packages by 80%. 

Additionally, they wanted to increase efficiency by 5% or more during the assembly phase. Including enhanced communication on the shop floor. As well as saving time on machine assembly and tactical coordination. As such, was estimated to be taking up 30% of a builder’s day.

Business Challenges

With an increase of workers on the shop floor, builders had no choice but to walk back and forth to shared kiosks in order to visualize and assemble designs. These complications only intensified as products became more complex. With manual error-prone operations, redline quality, and accuracy were at stake.

Similar to many other manufacturing organizations, challenges arose when it came to searching for the correct prints, managing paper booklets, and updating print designs. 

Rework stemming from incorrect designs, and file management complications were growing. Also, misplaced product information (needed for closed-loop change processes) had never been greater. JR Automation was seeking a simple way for low-tech machine builders to get last-minute design changes to engineering. Ross Walters, Director of Engineering, knew that builders required a solution that was highly intuitive.

The Solution: EAC Apps

JR Automation looked at PTC ThingWorx Navigate. ThingWorx Navigate does offer a single view to multiple enterprise systems like ALM, MRP, ERP, SLM, CRM, Accounting, and PLM (Windchill). It also gives users universal access to the latest most accurate product information when they need it. 

However, it was clear to JR Automation that what they really needed was a customized app that made things easier. EAC’s experts knew the solution and streamlined processes that allow builders to get drawings, CAD files, and other related documents in a single portal. With EAC Apps they could also see role-based reports and make redlines. 

By providing all the information needed on a single screen, with user-friendly workflows and easy-to-submit redlines, EAC apps improved operational efficiency as well as customer satisfaction.

A Custom Solution with Major Impact

After evaluating cost, functionality, implementation time, training, and other considerations, JR Automation unveiled they would gain an ROI of $1.4 million from EAC Productivity Apps.

EAC Apps benefited JR Automation with:

• 80% efficiency increase in print management for mechanical engineers
• 60% efficiency increase in builder print management
• 60% increase in digital efficiency gains

In conclusion, JR Automation’s builders no longer need to share a kiosk. Working with EAC enabled efficiencies for more than 200 workers who use Redline Apps today. They have eliminated the need for paper, print supplies, and additional booklets saving them additional costs. EAC Apps have continued to provide benefits such as improved accuracy with customer shipment orders, product designs, onboarding, and training efficiencies.

Learn more about EAC Productivity Apps here.

I’m sure at least once in your life you’ve heard the saying, ‘Work smarter, not harder.’ But what a cliche, right?! Well, for those of you managing your Bill of Materials (BOMs) in Excel, it’s time to step away from the cell block prison (pun intended).

In this article, we’re going to break down what it actually means to revitalize your BOM strategy with the Digital Thread to start seeing the results you want.

What Is The Digital Thread?

First of all, let’s start with the basics. The Digital Thread is a term used to describe the seamless flow of information throughout the manufacturing process. From design and engineering to production and after-sales support. It provides a way to connect all the data and information generated at different stages and from systems of the product lifecycle.

Generally, the Digital Thread provides value by enabling better visibility and control of any processes that require or produce product data. It enables manufacturers to collaborate more effectively, automate and optimize workflows, and quickly respond to changes. All while adjusting quickly to customer needs. 

Bill of Materials (BOM)

Next, let’s break down the concept of a Bill of Materials. A complete Bill of Materials (BoM) list usually contains all of the parts and components needed to create or manufacture an end product. You might think of a BoM as a recipe ingredient list. The information about each part can include details such as part names, part numbers, quantity required, and cost per unit. Not to mention, BoMs contain other relevant part details such as material type, color, or size if applicable; supplier information; serial numbers, etc.

By consolidating and organizing all the pertinent information product information, the BoM becomes a centralized resource. A critical resource that facilitates the manufacturing processes of specified products.

Ultimately, the goal of the BoM is to help track inventory and verify missing parts during assembly. Equally as important, BoMs are critical to support a healthy supply chain, as well as help with purchasing decisions and more.

The Digital Thread and Bill of Materials Working Together

Balancing a plethora of product information – it’s no surprise, the best BoM management strategy used within the industry does not leverage solely Microsoft Excel. Nor does it rely upon one Enterprise resource planning (ERP) system. Instead it works to unite data from multiple systems into a single source of truth. 

Sounds great doesn’t it? But, if you’re like most – your product data lives all over the place in different systems from different departments. This situation tends to create data siloes resulting in time-consuming manual tasks using outdated operational processes. Generally, these are some of the biggest problems that inhibit manufacturers from achieving their business initiatives. 

Oftentimes, during our EAC Assessments, we hear multiple teams across the enterprise and different management levels are frustrated by broken processes. In short, there is a lack of key information employees need to do their jobs right, at the time they need it most.

Meanwhile, the digital thread uses advanced technology (such as product lifecycle management systems as well as the Internet of Things) to connect critical disparate processes. This, in turn, helps minimize manual tasks, and breaks down data siloes. Implementing the digital thread to your BoM strategy creates a major impact for all stakeholders involved. For instance, design teams, engineers, manufacturing, assembly, operations, finance, purchasing, and even marketing. 

How The Digital Thread Supports Engineering

Furthermore, the Digital Thread plays a crucial role in supporting engineering and bill of materials (BOM) management by providing seamless connectivity and accessibility to relevant data throughout the product lifecycle. Here’s how the digital thread benefits these areas:

1. Engineering Collaboration

Firstly, the digital thread allows engineers to collaborate effectively by providing a centralized platform for sharing and accessing engineering data. This facilitates cross-functional collaboration, enables real-time communication, and reduces errors or miscommunications during the design and development process.

2. Design Consistency

Secondly, the digital thread ensures design consistency by maintaining a single source of truth for engineering data. Changes made in the design phase are automatically propagated throughout the digital thread, ensuring that all related documents, models, and specifications remain synchronized.

3. BOM Accuracy and Visibility

The digital thread integrates BOM management, configuration management, and BoM transformation capabilities. This enables accurate and up-to-date BOMs, as the data will automatically reflect changes. Additionally, it provides real-time visibility into the BoM status, including component availability, sourcing information, and cost implications.

4. Change Management

Next, the digital thread streamlines change management processes. By automating change notifications, approvals, and tracking. Essentially, it ensures that engineering changes are effectively communicated, documented, and implemented across the relevant stages of the product lifecycle, minimizing errors and delays.

5. Manufacturing Process Optimization

By connecting engineering data with manufacturing process management, the digital thread enables better coordination and optimization of production processes. By in large, system and data integration allows for improved manufacturing planning, efficient resource allocation, and reduced lead times.

6. Enhanced Visualization and Analysis

Another example includes leveraging augmented reality (AR) design sharing to provide visual representations of designs. In detail, enabling stakeholders to view and analyze products in a virtual environment. It’s recommended to use AR to enhance design reviews, simplify communication, and facilitate better decision-making.

Overall, the digital thread improves engineering and BoM management. Markedly, by streamlining processes, enhancing collaboration, ensuring data consistency, and providing visibility across the product lifecycle. It promotes efficiency, accuracy, and agility in engineering and BoM-related activities. Leading to improved product quality and faster time to market in the long run.

How A Digital Thread BoM Strategy Streamlines Manufacturing

Simultaneously, the digital thread plays a significant role in enhancing the bill of materials (BoM) management for manufacturing, assembly, and quality control processes. In sum, here’s how the digital thread benefits these areas:

1. Manufacturing and Assembly Planning

The digital thread enables seamless integration between the BoM and manufacturing planning systems. It provides real-time visibility into the BoM, ensuring accurate and up-to-date information for manufacturing and assembly operations. This allows for efficient production planning, optimized resource allocation, and improved scheduling in all.

2. Supply Chain Integration

By connecting the BoM with supply chain management systems, the digital thread enhances supply chain visibility and collaboration. It enables better coordination with suppliers, accurate tracking of component availability, and improved procurement processes. As a result, it minimizes the risk of production delays and ensures timely delivery of materials.

3. Work Instructions and Assembly Guidance

Thirdly, the digital thread facilitates the creation and dissemination of detailed work instructions and assembly guidance based on the BoM data. This ensures that assembly operators have access to accurate and step-by-step instructions, reducing errors and improving productivity on the shop floor.

4. Quality Control and Traceability

The digital thread enables better quality control and traceability throughout the manufacturing process. By integrating the BoM with quality management systems, it ensures that quality requirements and specifications are adhered to during production. It also enables traceability of components and materials, making it easier to identify and address any quality issues or recalls.

5. Continuous Improvement and Feedback Loop

Additionally, the digital thread supports continuous improvement initiatives by capturing data and feedback from manufacturing and quality control processes. It enables the analysis of production data, identifies areas for improvement, and facilitates data-driven decision-making to enhance manufacturing efficiency and product quality.

6. Post-Market Monitoring

Finally, the digital thread extends beyond the manufacturing phase to support post-market monitoring and quality assurance. Integrating BoM data with field service management systems and customer feedback enables organizations to identify and address product issues, initiate product improvements, and provide timely support and maintenance.

All in all, the digital thread enhances BoM management for manufacturing and assembly processes by ensuring accurate and up-to-date information, facilitating supply chain integration, enabling effective work instructions, improving quality control, supporting continuous improvement efforts, and enabling post-market monitoring. Concurrently, it streamlines operations, improves product quality, and enhances customer satisfaction.

The Polaris Story

Polaris utilized PTC Windchill, an advanced product lifecycle management system, to transform their Bill of Materials into a reliable new business model backbone. As a result, it allowed them to create a connected enterprise.

Windchill PLM combines the digital thread framework with a maximized BoM and change management strategy. This powerful product lifecycle management platform organizes all information associated with the development of its products, allowing every stakeholder to access the latest up-to-date information in a dynamic format.

Once it was clear to Polaris that they had outgrown certain tools and processes, they coordinated and synchronized a digital thread of data throughout the enterprise by leveraging PTC Windchill.

As of today, Polaris’ Windchill PLM system enables them to manage and organize the bill of materials (BoM) and implemented configuration management practices. This helped transform their BoMs as needed, effectively managing changes, overseeing manufacturing processes, and utilizing augmented reality (AR) design-sharing capabilities.

By orchestrating these elements, the digital thread ensured seamless connectivity and flow of information across different stages and departments within Polaris. This enabled improved collaboration, streamlined workflows, effective change control, and enhanced manufacturing processes. On top of giving the ability to share and visualize designs using AR technology.

Attention engineers! There’s an easier way to conduct Tolerance Analysis for your CAD designs.

Transforming CAD designs into real and tangible parts is not only rewarding on a personal level but also professionally fulfilling. It combines creativity, problem-solving, and hands-on experience, all culminating in the sense of accomplishment that comes from creating something real from an abstract concept.

However, as you already know, physical parts deviate from the idealized representation (the design model) due to many different challenges and manufacturing constraints. Tolerance analysis involves assessing the impact of variations in dimensions, geometries, and other parameters on the final product’s performance and functionality. By utilizing Tolerance Analysis, designers ensure proper fit and alignment of the product components.

Improve Quality & Design Innovation

If the goal is to improve quality and design innovation, enable your engineers to perform comprehensive tolerance stack-up analysis. Traditionally this process is a massive pain i.e. repetitive trial-and-error tasks and tedious testing. This part of the design process can be frustrating and often slows down design teams. However, it doesn’t have to be this way!

The PTC Creo EZ Tolerance Analysis Extension is a dynamic computer-aided engineering (CAE) tool powered by leading Sigmetrix technology. This extension helps designers by creating a faster, more intuitive workflow to assess the impact of dimensional specifications on your product designs before prototypes or production.

The software provides algorithms to help engineers identify the optimal tolerance values that meet the design objectives while considering various constraints. This aids in making informed decisions and reducing the time spent on manual analysis and evaluations.

By considering these variations even earlier in the design process, engineers can make more informed decisions to ensure that the final product will perform as intended. Cheers to reinforcing Closed Loop Manufacturing!

The Positive Business Outcomes of Using EZ Tolerance Analysis

Below is a high-level overview of the positive business outcomes this PTC solution proves to provide for manufacturing companies:

• Speed time to market
• Mitigate risk
• Improve productivity
• Reduce costs by reducing rework and scrap

Related Technologies To Use With Tolerance Analysis

Combine Tolerance Analysis with Geometric Dimensioning and Tolerancing (GD&T) to ensure your designs comply with ASME and ISO standards. Or take your designs even further to contain all the data needed to define the product with model-based definition (MBD). With MBD, your model becomes the source authority across the enterprise. The outcome is shorter product development cycles, reduced costs, and enhanced product quality.

PTC continues its investments in enhancing simulation-driven design and generative design with the new Creo 10. Some new features include Rotational Symmetry, Mass Point Constraints, and Remote Loads. Additionally, Creo Simulation Live now includes Contact Simulation options and improved options for fluid and structural results. Creo Flow Analysis and Creo Simulation now have better animation and multibody support. 

For more Simulation and Analysis, we also recommend PTC’s Creo Simulation Advanced powered by Ansys technology. The brand-new Creo Ansys Simulation Advanced analyzes nonlinear contact and materials, with combined thermal and structural analysis. For more information about the latest release of Creo 10 check out the blog here.