Horn USA, Inc.’s Post

Tippy Tippy Tap Tap, What material do you want? With so many advanced materials available in the market, it is important to understand how it will behave while in use. Since not every material is the same, and guesswork is not an option, choosing the right material from the wide selection available can be a real challenge. From material characterization to CAE material cards, we've got you covered every step of the way. Want to know more? We're just an email away. Reach out to us at enquiry@engenuity.net. #materialtesting #engineering #characterisation

Mastering Pinion Division with a Worm & Wheel Dividing Head In this video, we walk through the steps to accurately divide a 12-leaf pinion using a 40:1 worm and wheel dividing head. By using 3 1/3 turns of the worm and a hole circle divisible by 3, precision is made simple. This technique allows for divisions beyond the ratio of the worm and wheel. Curious to learn how it’s done? Watch now, and share your thoughts in the comments! #PrecisionMachining #ManufacturingExcellence #Engineering #MechanicalDivision

📚Prompt Engineering - Beginner to Advanced resources These 5 resources combine hands-on implementation as well sound theoretical knowledge in the field Nir Diamant's repo: https://lnkd.in/eMiQSDbs DAIR: https://lnkd.in/gWVP56F2 Survey on 39 prompting methods: https://lnkd.in/gaNh2UxA Prompt Canvas: https://lnkd.in/gfX9QfQW Lilian Weng Blog: https://lnkd.in/g-2V3b79

#TeamSalix Engineering spotlight - Wheel Interface Study   A wheel interface study is completed during the design stage to identify all the safety critical areas which can impact the performance of our turnouts. For this project, Salix performs the wheel interface study based on worst tolerance stack-up analysis. Our team identify any possible issues during the design phase and make necessary improvements, ensuring the safety in design and product performance prior to manufacturing. In the simulation below, the wheel runs over the K-crossing, dual V-crossing entry and exit points. Our engineering team then asses any issues or gaps and update the design to suit before manufacturing. The results were presented to our clients in a detailed design report.   All parts below were designed and manufactured by Salix. #salixengineering #wheelinterfacestudy #rail #turnouts

Effective use of engineering principles can transform even the simplest materials into 100x load-bearing structures? A few accordion folds enables: 300% more load - Distributed stress enable same paper to handle. Moment of inertia can be increased by up to 50 times with proper folding! Accordion folds create triangular segments, one of the strongest shapes in structural design, known for their ability to resist deformation. Similarly, humans can exponentially enhance their performance by reframing how they handle stress and pressure. Here’s the data: 40% improvement in problem solving capabilities - in Professionals who engage in continuous skill development. Diversifying your skill set, much like adding folds to a structure, can increase career longevity by up to 20 years—a human version of optimizing material usage. Next time you encounter a challenge, remember: you can fold, adapt, and realign yourself to become stronger. Sometimes, the key to increasing your capacity is not by adding more resources, but by reshaping what you already have! #EngineeringLife #HumanPotential #Innovation #StructuralResilience

High Level Synthesis (HLS) Design Flow

The best prompt engineering advice you'll get in under 13 characters: Show > tell

Have you ever tried to #design #equipment or a #product which includes repeated #impacts, but still need to account for #Fatigue #Life and #Damage Tolerance. Some of our clients have this issue and some of their equipment would fail catastrophically - working with them, we have been able to make their equipment work, gave them the life and the damage tolerance they needed (not the first project, and not the last of this complex nature). Using traditional, #implicit #FEA for this #dynamic event would be impossible, however by using #explicit FEA we are able to capture the full transfer of #energy through the system and the relative #speeds of all of the different components at any point in time.  The #impact event puts large loads through some components, giving a single #high #tensile stress value. Other components it causes to #vibrate, which can accumulate many reversed stress #cycles in a single strike. How do we know which stresses are most damaging and where we should focus our design effort? DOCAN's experienced engineers use complementary pieces of software which allows us to use an #advanced #fatigue #life algorithm accounting for mean stress correction, bilinear stress states, and complex loading cycles on every single element of the model producing a contour plot of life for the entire system, which can be readily interrogated and the design adjusted where necessary to achieve the required life. Using DOCAN's technology stack, we can complete full implicit, and in this case Explicit analysis, and also use special algorithms to assess fatigue for these extremely dynamic events, where many vibrations waves can occur potentially causing damage. As such we are uniquely positioned with our expert engineers and our technology to help design your complex equipment. If you have complex dynamic problems which keep causing failures and need a resolution, or have new equipment, products or designs which need to account for dynamics of all kinds, and still function later on, come and talk to the team. DOCAN's AET, or our Advanced Engineering Team will sort you out. info@docanco.com +4401606212330

#Publication_Alert "Thrilled to announce our latest publication! "Design & Optimization of 3-Class Object Detection for Manufacturing Steel Surface Fault Diagnosis & Dimensionality Classification" is now live! DOI: 10.1007/s13198-024-02503-8 #SystemsEngineering #Research #Publication #Springer #Innovation #ManufacturingAutomation #QualityControl"

How to drill a triangle hole. Engineering tooling!