In today’s world, sustainability is not just a buzzword—it is a business imperative. Conducting a sustainability assessment of your manufactured products through economically sound processes that minimize negative environmental impacts is crucial. Here is why:
Environmental Protection
Safeguarding our planet for future generations is one of the most compelling reasons to conduct a sustainability assessment. By evaluating your company’s environmental footprint, you can identify areas where you can reduce waste, lower emissions, and conserve natural resources. This helps protect ecosystems and also ensures that future generations can enjoy a healthy and sustainable environment.
Regulatory Compliance
Staying ahead of ever-evolving regulations is another critical aspect. Governments around the globe are increasingly implementing stringent environmental laws and regulations. The U.K. has been one of the industry leaders in changing their sustainability standards with many following suit around the world. A thorough sustainability assessment helps you understand and comply with the regulations in your area, avoiding potential fines and legal issues. It also positions your company as a responsible corporate citizen, which can be beneficial in negotiations and partnerships.
Economic Efficiency
Reducing costs and improving resource efficiency are direct benefits of a sustainability assessment. You can implement changes that reduce energy consumption, minimize waste, and optimize resource use by identifying inefficiencies in your production processes. This not only lowers operational costs but also enhances your bottom line, making your business more economically sustainable.
Consumer Demand
Meeting the growing demand for sustainable products is essential in today’s market. Consumers are increasingly aware of the environmental impact of their purchases and prefer to buy from companies that prioritize sustainability. A sustainability assessment helps you align your products with consumer expectations, enhancing your brand’s reputation and customer loyalty.
Innovation and Competitiveness
Driving innovation and staying competitive is crucial for long-term success. Sustainability assessments often reveal opportunities for innovation, such as developing new, eco-friendly products or adopting innovative technologies that reduce environmental impact. By staying ahead of the curve, you can differentiate your company from competitors and capture new market opportunities.
Risk Management
Mitigating risks and enhancing business resilience are vital for navigating the uncertainties of the modern business landscape. Environmental risks, such as resource scarcity and climate change, can have significant impacts on your operations. A sustainability assessment helps you identify and address these risks proactively, ensuring that your business remains resilient and adaptable in the face of challenges.
Sustainability assessments are not just about minimizing environmental impact—they are about creating a comprehensive approach to business that considers economic efficiency, regulatory compliance, consumer demand, innovation, and risk management. By conducting a comprehensive sustainability assessment, your company can enhance its reputation, drive innovation, and ensure long-term success and resilience.
Investing in sustainability is investing in the future. Start your sustainability assessment today and take the first step towards a more sustainable and prosperous tomorrow.
Maximizing Manufacturing Efficiency with Creo 11
Have you ever experienced the frustration of lengthy and inefficient manufacturing processes that bog down productivity and hinder your business’s ability to grow? If so, you’re not alone. Manufacturing businesses across the world are constantly seeking ways to streamline their processes, reduce costs, and boost productivity.
Enter Creo 11 – the innovative technology that’s set to revolutionize the industry. In this blog, we’ll delve into how the new enhancements offered by Creo 11 can empower your business and employees to take advantage of the limitless possibilities of additive and subtractive manufacturing and create more efficient and effective manufacturing processes.
Additive Manufacturing: Complexity and Flexibility
Connection Lattices: Redefining Design Possibilities
Creo 11 introduces a groundbreaking new lattice command that allows the connection of separate lattices. This enhancement opens the doors to creating complex lattice structures with unprecedented flexibility. The straightforward workflow empowers engineers to effortlessly design continuous lattice structures within the familiar Lattice UX environment.
Beam Lattices and Stochastic Lattice: Unleashing Creativity
Adding randomization value and the ability to define pore size equips businesses with the tools to adjust simplified lattices using the Warp feature. This innovative feature expands the horizons for creating stochastic lattices, rendering them more flexible for various applications, particularly in the realm of medical implants.
Empowering Complex Designs with Export Options
Creo 11 offers 3MF/STL export options for parts created in additive manufacturing mode, significantly enhancing the preparatory phase for 3D printing. This feature not only improves the export workflow but also brings a wealth of possibilities for blending formula-based lattices with the shell and adding penetration options, ultimately maximizing design potential.
Subtractive Manufacturing: Precision and Efficiency
High–Speed Machining: Catering to Diverse Applications
With a primary focus on automated roughing and finishing sequences, Creo 11 introduces new 4-axis Rotary roughing and finishing toolpaths for high-speed machining. The support for End Mill, Ball Mill, and Bull Nose Mill ensures applicability in various industries, including automotive and oil field sectors.
Response to Customer Demand: Tailored Solutions
The addition of trajectory milling with enhanced entry/exit movements and trims reflects Creo 11’s commitment to providing solutions tailored to the direct requests of customers. This optimization ensures smoother operations and elevates productivity, addressing the complexities of modern machining requirements.
HSM 4-axis Rotary Machining: Precision Engineering
In response to specific customer needs, Creo 11’s introduction of HSM 4-axis rotary machining, tailored for automotive and oil field applications, reflects a commitment to precision machining. Its flexibility in defining machining areas and supported tools opens the doors to diverse manufacturing possibilities, catering to varying geometrical complexities.
Trajectory Milling & Retract Trimming
The latest enhancement brings a new level of precision and flexibility with options to create lead in/out arcs along the tool-axis and support for 5-axis toolpaths. Retract trimming options for various types of milling such as volume, profile, drill sequences, face milling, and trajectory milling streamlines retract movements with precision and efficiency.
Engraving & Deburring Functionality Expansion
Curve selection enhancement and box selection support for deburring provide more control over which edges to consider for deburring operations. A new “OPTIMIZE_LINKS” parameter makes engraving processes more efficient, considering the shortest distance for connecting all curve segments in the specified order.
Show and Hide Manufacturing Geometry
Now, users can show and hide manufacturing-related geometry directly from the in-graphics toolbar, offering a more fluid and customizable approach to additive manufacturing processes. Separate CUTCOM strategies defined at the work center allow users to define different CUTCOM strategies for milling and turning for greater flexibility and control.
Process Documentation Enhancements
Improvements that add clarity to the automatic shop floor report in Creo have been introduced. Customizable images related to operations in the summary section now include the Program Zero coordinate systems, based on the current view displayed, and stored in a designated folder for later use.
Empowering the Future of Manufacturing
Creo 11’s enhancements in both additive and subtractive manufacturing not only streamline core manufacturing processes but also open up a world of possibilities for engineers, engineering managers, and shop floor workers. The precision, flexibility, and enhanced capabilities brought about by these innovations are set to transform the manufacturing landscape, driving businesses toward unprecedented efficiency and creativity.
The impact of Creo 11’s enhancements on the world of manufacturing is undeniable. With its active voice and focused approach, Creo 11 has reshaped the way businesses approach manufacturing, setting a new standard for efficiency, precision, and innovation in the industry. Want to see these new functionalities in action? Schedule a demo today!
In the realm of design and mechanical engineering, achieving efficiency and precision is crucial. With the recent launch of Creo 11, PTC has introduced a suite of enhancements focused on revolutionizing Model-Based Definition (MBD) functionalities.
If you’re already familiar with Creo, you might be curious about the process and impact of upgrading, especially concerning your current use of Windchill versions. But if you’re new to Creo and eager to witness these enhancements in action, don’t hesitate to request a demo!
These upgrades promise an exciting new experience for engineers and designers. Now, let’s delve into their impact on MBD and uncover how design and mechanical engineers can reap the benefits.
Quick and Easy Annotation Collection with MBD Enhancements
Creo 11 offers quick and easy ways to collect multiple semantic annotation references. The new box selection feature allows engineers to toggle between selecting only visible surfaces or selecting through them, offering enhanced control and flexibility in annotation workflows.
The lasso and trace selection methods also simplify the collection process, making annotation management more efficient. A cool new feature auto-collects the 2nd half of a cylindrical surface as a semantic reference, specifically for cylindrical features like holes or shafts.
It’s a breeze to create and maintain annotations for cylindrical features with this enhancement. Creo 11 now allows users to query annotations and surfaces of an inheritance model for their semantic associativity in the target model.
User-defined layer states can be assigned to the “Default All” combination state, making it easier to capture design intent and ensuring improved clarity and organization of annotations.
Simplified Table Creation and Management in Creo 11
The new table creation capabilities in Creo 11 provide an entirely new way to easily create simple tables. There are options for using formatting and editing options to customize the presentation of data to their specific needs.
The introduction of a dedicated node for tables in the model/detail trees also makes table management more structured and organized. Various file formats support table export/import, including Excel (*.xlsx) with basic formatting.
This allows engineers to integrate and manipulate tabular data seamlessly. Additionally, the support for Excel tables in 2D drawings streamlines the documentation process and ensures consistency across different design stages.
These MBD enhancements in Creo support parameter callouts for tables or cells and enable flat-to-screen tables to be set as security markings. This enhancement ensures that important data and design information are easily distinguished and appropriately assigned to all combination states, boosting efficiency and reinforcing data organization.
Driving Compliance and Efficiency with GD&T Advisor
With the added MBD functionalities, the GD&T Advisor in Creo 11 now supports ISO GPS 22081 for general tolerances, simplified hole callouts for ISO models, and enriched support for slab/slot features. These enhancements ensure improved compliance with the ISO standard and significantly reduce the clutter of annotations, leading to a more streamlined and efficient design process.
By tapping into the capabilities of Creo 11 and its amazing MBD features, design and mechanical engineers can unlock new levels of potential, efficiency, and clarity in their workflows.
While there is always room to grow, the improvement in the latest Creo launch to Model-based Definition functionalities proves that this is becoming the new normal for design engineers.
Let’s step into the future of MBD with Creo 11, enhancing the design and manufacturing landscape with increased efficiency and precision.
Just like fine wine, Creo keeps getting better with time! Creo 11 by PTC offers numerous enhancements to improve the productivity, usability, and functionality of frequently used tools. In this blog post, we will explore the key updates in Creo 11 that aim to streamline workflows, enhance user experience, and boost efficiency in product design.
Usability Enhancements
Easily Access Creo Options
One of the standout features in Creo 11 is the ability to search and find settings in the options dialog easily. That being said, this enhancement enables you to locate relevant Creo options more quickly, reducing time spent navigating through menus and improving overall efficiency.
Improved Model Tree
Creo 11 introduces improved collapse/expand behavior and renaming capabilities in the model tree. Specifically, these enhancements enhance the user experience by making navigating and managing complex assemblies and parts within the software easier.
Enhanced Drag Handles
Due to popular demand, the software now offers improved drag handles for feature dimensions, simplifying identification and manipulation controls for complex features. This improvement simplifies the editing process and ensures a smoother user experience.
Selection Enhancements
Flexible Selection Options
Creo 11 introduces box, lasso, and trace selection support, providing you with more flexibility in selecting multiple surfaces and entities. You can now toggle between selecting all surfaces or only visible surfaces, improving the precision and speed of selection workflows.
Multi-Body Design for Sheetmetal
With the introduction of multi-body design capabilities for sheet metal parts, Creo 11 simplifies single-part design workflows and enables you to split single sheet metal parts into multiple parts. As a result, this feature allows for greater control over manufacturing and design costs and facilitates the design of multi-thickness sheet metal parts in context.
Simplification Features
Shrinkwrap and Merge Options
A new shrinkwrap option in Creo 11 allows you to collect bodies from referenced assemblies into a single part, streamlining the creation of simplified models. So, merge options for bodies in assemblies offer flexibility to keep separate objects, merge into single bodies, or merge all bodies for efficient design workflows.
Modeling and Design Enhancements
Enhanced Features
Creo 11 enhances modeling capabilities with features such as enclosure volume and new options for point patterns, for increased flexibility, and faster regeneration. These improvements aid in the creation of bounding boxes for optimization purposes and streamline pattern referencing workflows.
Welding and Surfacing Improvements
Welding Capabilities
Creo 11 provides a faster and more flexible definition of spot welds through improvements in spot welding functionality, joint members, and XMCF features. These enhancements increase productivity and eliminate additional steps in the welding process.
Surfacing Enhancements
Surfacing with freestyle and style features, including rotational pattern support, new bevel operations, and improved curve editing controls are new enhancements. These updates offer greater control over curves and surfaces, improved usability, and streamlined workflows for working with multi-level subdivisions.
Design for Electrification
Routed Systems
Creo 11 introduces improvements to routed systems, allowing for easier design and creation of electrical systems within the software. These enhancements include cabling, removal locations capability, dynamic previews in the graphics area, expandable filtering, and undo/redo functionality. These enhancements increase productivity and make designing and managing electrical systems easier within Creo.
ECAD
In addition to the improvements in routed systems, Creo 11 also includes enhancements to ECAD (Electronic Computer-Aided Design) functionality. Users of Solidworks and Inventor might know this as electrical-mechanical integration and compatibility enhancements. Enhanced ECAD visibility simplifies control and understanding of ECAD layer presentation through data visibility. These enhancements improve usability and provide more flexibility in the design of electrical systems.
Design for Composites
In addition, Creo 11 introduces expanded functionality for designing composite materials. This includes the ability to modify transitions in graphics, improved usability for laminate sections, and enhanced draping simulation. These enhancements make it easier to manage and visualize composites, improving usability and productivity. Additional improvements include zone-based design, enabling faster creation of large-scale composite products, and a conceptual top-down approach to composite design.
As for Model-Based Definition (MBD), Creo 11 also includes enhancements to make it easier to organize and manipulate data in a tabular form. MBD enhancements in Creo 11 include creating tables, adding semantic references, and supporting parameter callouts. Also, Creo 11 introduces support for STEP AP242, allowing for the export of PMI (Product and Manufacturing Information) information in a machine-readable format.
In simulation-driven design, Creo 11 introduces enhancements to improve accuracy and productivity in time-based motion analysis. These include updates to solvers, expanded structural and fluid results, and a new conjugate heat transfer capability. These enhancements allow for faster and more accurate predictions of heat transfer and structural optimization based on simulation results.
Design for Manufacturing
Connection Lattices
In response to the rise in additive manufacturing demands, Creo 11 introduces a new lattice command to connect two or more separate lattices, giving you more flexibility to create complex lattices. This workflow is straightforward and can be performed inside the same familiar Lattice UX. Additional enhancements include beam lattices, stochastic lattices, randomization value, and defining pore size. Moreover, you can also adjust simplified lattices using warp and export in 3MF/STL format. Finally, Creo 11 has added a penetration option for simplified lattices, providing additional flexibility to prepare parts for 3D printing, particularly in medical implants.
Subtractive Manufacturing
Creo 11 introduces new 4-axis rotary roughing and finishing toolpaths, which can pass 360 degrees and be used for crew-type parts. Also, Creo 11 supports end mill, ball mill, and bull nose mill. These enhancements provide automated roughing and finishing sequences, which will be applicable for automotive and oil field crankshafts, camshafts, and drill heads.
Milling
Another enhancement is trajectory milling or CAM Programming, which allows you to define entry and exit movement along the direction of the cut, reducing the possibility of breaking small tools. This method is also more efficient, saving time spent on retracts. Additionally, Creo 11 supports curves not on the surface and trim retract motion to a plane. You can now easily manage the display of manufacturing geometry in the graphics toolbar.
Turning
Creo 11 has modernized 4-axis area-turning user interfaces, providing a streamlined and consistent user interface across all toolpaths. Improved material removal cut functionality for profile turning and additional area turning capabilities have also been added to the 4-axis. Creo 11 now supports user_output_point, CUTCOM support at each slice, clear distance, and turn profile start and end driving the cut direction.
These enhancements in Creo 11 provide you with greater flexibility, productivity, and efficiency in all areas of your product design. By incorporating these new features, Creo 11 continues to lead the industry in product design and manufacturing. You can watch the Creo 11 Webinar to learn more at your convenience or reach out to one of our experts to see which enhancements would benefit you the most!
Developing complex products in CAD (computer-aided design) with a distributed team can be a challenging task. However, with Creo Parametric’s Advanced Assembly Extension [AAX], managing distributed development becomes a seamless process even on a global scale.
This powerful extension facilitates and automates the exploration of product assembly variations and adds intelligence to your CAD design assembly so it reacts correctly in any situation.
Clearly Defining and Communicating Complex Design Intent
To kickstart any complex design project within CAD, it is vital to have a clearly defined source of design intent. This serves as the backbone of the development process and enables smooth collaboration among team members.
Furthermore, Creo Parametric AAX has tools for creating and managing space claims, assembly interfaces, and location points. These features help define design intent and make sharing information easy. With a clear and structured design intent, it becomes much easier for team members to understand their tasks and contribute effectively.
Distribution and Communication of Design Intent
Once the design intent is defined, the next crucial step is to distribute and communicate this intent to team members efficiently. Creo Parametric AAX allows team members to focus on their relevant tasks by providing options to copy relevant geometry or use published geometry in their subsystem. This ensures that each team member can work on what’s relevant to their task without any confusion or delays.
Controlling Inter-Dependencies
Intelligent inter-dependency management within a complex product design is essential to ensure flexibility and adaptability. Advanced Assembly offers powerful tools to create and track desired interdependencies, preventing the creation of unwanted relationships that can hinder design flexibility.
By allowing users to control inter-dependencies effectively, teams can confidently make changes and reuse design components while maintaining the integrity of the complex product.
Leave No Rock Unturned with Complex Designs
The path to innovation often involves exploring multiple iterations and variations of a design. This Creo extension empowers designers to leave no stone unturned by offering efficient tools to create and manage assembly variations.
Families of Assembly Designs
Creating new assemblies for minor variations or component substitutions can be time-consuming and unnecessary. Creo Parametric AAX simplifies this process by allowing designers to define variations in assembly dimensions or switch out components without the need for separate assemblies.
By identifying what differs from the original design, designers can switch family instances of component family tables or subassembly family tables effortlessly, with automation taking care of the rest.
Interchange Parts and Assemblies
The ability to interchange functionally equivalent components is a valuable feature when exploring design variations. This CAD extension enables designers to relate independent components, making it easy to switch them within an assembly. Additionally, simplified exchange members can be substituted into a design to streamline the display while retaining accurate mass property information.
Raising the IQ of your Complex Design
Dealing with constant change is a fundamental aspect of design. Creo Parametric AAX allows designers to enhance their complex models with intelligent logic, automating component sizing based on calculations or user input.
This intelligence extends to switching out components or subassemblies automatically for Family Table or Interchange instances when specific conditions are met. By raising the IQ of your design, you can navigate design changes faster and more efficiently.
How to Put it Together or Take it Apart
Ensuring smooth communication of assembly procedures is crucial for efficient manufacturing and engineering processes. This extension for complex designs offers intuitive process planning functionality to disseminate process information effectively throughout the organization.
Easily Create Assembly Process Sequences
With user-friendly tools, users can define assembly processes step by step. With intuitive drag-and-drop techniques, exploded views, and jogged explode offset lines, AAX provides a clear and accurate representation of each process step, making it easy for all stakeholders to understand the assembly process.
Create Alternate Bills of Materials (BOMs)
Creo Parametric AAX empowers users to create alternative BOMs that reflect specific assembly stages or grouping of design components based on the assembly process. These alternative BOMs, such as manufactured BOMs or fabrication BOMs, enable clear communication of the assembly process and facilitate efficient manufacturing operations.
Creo Parametric Advanced Assembly Extension [AAX] offers a comprehensive suite of tools and functionalities to manage the distributed development of complex designs.
From clearly defining and communicating design intent to exploring design variations and enhancing design intelligence, AAX ensures that no aspect of the design process goes untouched. By leveraging this extension, design teams can collaborate effectively, respond to changes efficiently, and create flexible and reusable complex products