Autodesk, Schneider Electric Shape Future of Electrical Design and Engineering, Combat Climate Change

The way we produce, distribute, use, and store energy is undergoing a dramatic shift. Fast forward two decades to 2040, and we'll see that 40% of the energy we consume will likely come from renewable sources. Many buildings will also become self-sufficient, which will fundamentally alter the way we think about design. When Autodesk and Schneider Electric first embarked on this journey to address these changes, we recognized both the challenges and opportunities ahead. We started by rethinking the traditional building design process, aiming to adapt it to support the evolving energy landscape. Now, we're moving beyond just imagining what could be and exploring ways to deliver tangible benefits to the industries we serve, our clients, and the planet itself. At AU Virtual, Marc Nezet, Schneider Electric's Senior Vice President, joined me in a conversation about dismantling silos and integrating workflows into the Building Information Modeling (BIM) process. Adapting to the New Energy Landscape New standards are pushing us toward innovative digital design solutions. Together, we’re collaborating on a groundbreaking electrical engineering design solution from Schneider Electric that will harness Autodesk’s cloud infrastructure. The ultimate goal? To create more sustainable and energy-efficient buildings that help combat climate change. [Image description: An electrical engineer hard at work] Autodesk and Schneider Electric are reinventing the building design process to align with the new energy paradigm. BIM Empowers Electrical Engineers for the Future of Work While many mechanical engineers have already embraced BIM, electrical engineers have faced obstacles due to regional standards, industry fragmentation, and disconnected processes. This collaboration aims to accelerate their adoption by streamlining workflows and enabling more effective collaboration. Schneider Electric is developing a new cloud-based service for electrical designers, utilizing Autodesk Forge, Autodesk's cloud-based development platform. This initiative will offer users a seamless and integrated experience, spanning conceptualization, schematic design, and detailed design stages to meet emerging industry needs. This solution seeks to bridge critical gaps in BIM-based workflows for our shared clients and transform Revit into a more intelligent tool for interconnected workflows. Electrical engineers will gain tools to tackle key design aspects like load distribution mapping, power balancing, equipment sizing, and single-line diagramming. New Workflows Leave a Mark on Climate Change Schneider Electric's tools enhance Revit’s capabilities in electrical design workflows. Leveraging machine learning and generative design, the new solution will suggest optimal infrastructure networks based on existing building plans, factoring in consumption data and performance metrics like energy efficiency and carbon reduction goals. "Instead of spending countless hours designing from scratch, electrical engineers will be able to apply 'lessons learned' from past projects to create even more impressive designs," said Marc Nezet, Senior Vice President of Energy Management Software at Schneider Electric. "Productivity and creativity will soar when we have access to energy efficiency data that enables architects and engineers to innovate further on new buildings and build on proposed infrastructure." The ideal outcome is a fully connected design process that optimizes energy efficiency from the initial design phase through construction and ongoing building operations. This means making a more meaningful impact on climate change and carbon efficiency. Years from now, when we look back on 2020, we’ll be proud to say we played a role in addressing these pressing global issues.

Teeth

Bucket teeth of excavators are important parts of excavators, similar to human teeth, but also vulnerable parts. They are combined bucket teeth composed of tooth seats and tooth tips, which are connected by a pin shaft. Because the part of bucket tooth wear and failure is the tooth tip, just replace the tooth tip.

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One: The bucket tooth material is low-alloy wear-resistant steel, which is more suitable for bucket teeth. However, due to the lack of necessary heat treatment, the organization of the bucket teeth is uneven, the insert does not play its due role, and the overall wear resistance of the bucket teeth is poor, leading to early failure. Two: It is recommended to properly normalize the casting after casting to improve the structure and performance and increase the service life. After reasonable heat treatment of the casting, under the same working conditions, the service life of the bucket teeth is increased by nearly 2 times.

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