Showing posts with label SolidWorks Structural Design. Show all posts
Showing posts with label SolidWorks Structural Design. Show all posts

Saturday, 17 March 2012

Solidworks Structural Design Sydney: Soildworks Structural Design

SolidWorks Structural Steel Design for Regional Australia — Accurate 3D Models, Reduced Rework, Shorter Lead Times

For engineers, fabricators, and project managers working across regional Australia — from mining towns to industrial facilities and remote processing plants — the structural design process must be built on accuracy, clarity and constructability. When structural steel doesn’t fit in the field, the cost isn’t just rework — it’s lost time, lost reputation, and often significant cost blowouts.

That’s why SolidWorks structural steel design, supported by modern 3D scanning, is revolutionising how structural detailers and engineers deliver projects in regional Australia.


3D scanning to SolidWorks workflow for regional structural steel showing point cloud, modelling and site installation


Why 3D Matters in Regional Projects

Regional projects bring unique challenges. Many clients are working with existing structures that have shifted with age, temperature, or prior modifications. Often, original drawings are out-of-date, incomplete, or simply unavailable. On these sites, assumptions are expensive.

Traditional 2D measurement methods — tape measures, laser distance meters, and paper drawings — have served the industry for decades, but they are limited. They rely on human interpretation and can miss critical details, especially on complex or large steel frameworks.

By contrast, 3D laser scanning captures millions of data points in seconds, producing a high-resolution “point cloud” that represents the structure exactly as it exists. That point cloud becomes the foundation for design — and for regions where you can’t afford guesswork, it is indispensable.

Learn more about how this works on the 3D Scanning Services page.

From Scan to SolidWorks Model — Precision at Every Step

Once a 3D scan is captured, the real advantage begins converting the point cloud into a detailed, accurate 3D model inside SolidWorks.

SolidWorks isn’t just a drafting tool — it’s a parametric 3D modelling environment, meaning every component has intelligence: geometry, constraints, and relationships. This is important because:

  • Dimensions are true to reality

  • Modifications update related views automatically

  • Clash checks show issues before fabrication

  • Drawings are generated directly from the 3D model

For regional projects — whether it’s an upgrade to a conveyor support frame, a new access platform over existing layout, or a structural tie-in to mechanical equipment — SolidWorks gives detailers confidence that fabrication drawings will deliver what the site needs.


Reducing Lead Times with Better Data

In regional areas, logistics can easily become the biggest delay. Fabrication yards might be distant, skilled labour is at a premium, and mobilisation windows are tight. Every week saved in drawing production and approval translates to significant savings on site.

When a SolidWorks model is built from accurate 3D scan data:

  • Design iterations happen faster

  • Rework is minimised

  • Approval cycles shorten because drawings are dependable

  • Fabricators can begin work with confidence

This efficiency isn’t just nominal — it directly reduces lead times on material procurement, welding schedules, and site installation.

Resolving Risk Before Steel Hits the Yard

One of the biggest values in the SolidWorks + 3D scanning workflow is early detection of clashes and misalignment. Without this, issues are often discovered only after steel arrives at site or during erection.

With SolidWorks structural design:

  • As-built conditions are represented with scan-derived geometry

  • New steel components are designed in context

  • Interfaces with existing structures are verified in 3D

  • Clash detection tools silently check for issues

Rather than discovering that a beam flange is too close to a duct or a platform bracket doesn’t align with existing bolt holes — problems are resolved upstream, in the CAD environment. This reduces rework, which is the number one killer of schedules, particularly in regional and constrained environments.

Collage of mechanical engineering and drafting images showing industrial machinery, CAD drawings and Hamilton By Design graphic


Quality Drafting Protects Your Reputation

The reputation of a structural draftsperson is tied to the reliability of their drawings. When steel fits first time, fabricators choose your drawings again. When there are errors, trust erodes quickly.

At Hamilton By Design, our Structural Drafting Services use SolidWorks as the backbone of our drafting process. Because drawings are generated from the 3D model:

  • Dimensions flow directly from the model

  • Fabrication notes are consistent across all views

  • Revision control is maintained automatically

  • Changes are updated globally without manual redrafting

The result? Fabrication packages that are accurate, consistent, and trusted by contractors.

Explore more about this workflow on our Structural Drafting page.

Regional Delivery Without Compromise

Working in regional Australia doesn’t mean compromising on precision. Whether your project is in Queensland’s central mining regions, Western Australia’s processing hubs, Northern Territory facilities, or rural industrial estates in NSW and Victoria, modern structural design must meet both engineering and fabrication expectations.

The combination of SolidWorks modelling and 3D scanning eliminates traditional barriers:

  • No assumptions about existing work

  • No guesswork in interface zones

  • No reliance on outdated documentation

  • No unnecessary site returns for measurement corrections

From small steel upgrades to full platform redesigns, this modern approach ensures steel fits the first time — every time.

Final Thoughts

If your project involves structural steel — and especially if it involves interfacing with existing structures in regional locations — adopting a 3D data-driven workflow is no longer optional. It’s the standard for accuracy, efficiency, and reliability.

Start with accurate scans, model in SolidWorks, and generate fabrication drawings with confidence — because your reputation and your project timeline depend on it.

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SolidWorks Structural Design - Hamilton By Design www.hamiltonbydesign.com

Hamilton By Design name displayed in silver 3D lettering on a tilted blue plate



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Soildworks Structural Design

SolidWorks Structural Design – Accurate Data, Quality Drafting, Fit-First-Time Outcomes


SolidWorks Structural Design - Hamilton By Design





Structural drafting has always been judged by one simple measure — does it fit on site the first time? The reputation of every structural draftsperson is built on the quality and accuracy of the drawings they produce. Modern tools such as SolidWorks Structural Design give detailers the ability to meet that expectation with confidence by combining intelligent 3D modelling with real engineering data.

From Lines on Paper to Intelligent 3D Models

Traditional 2D drafting relies heavily on interpretation, manual measurement, and assumptions about existing conditions. While experienced detailers can achieve excellent results, the process leaves room for error — particularly on brownfield projects where structures have moved, been modified, or were never built exactly to the original drawings.

SolidWorks changes that approach. Instead of drawing lines, the draftsperson builds a true 3D representation of the structure using parametric components. Connections, member sizes, hole locations, and interfaces become part of an intelligent model rather than disconnected details. When a change occurs, every related drawing updates automatically, reducing the risk of inconsistencies between plans, sections, and fabrication outputs.

This model-based workflow is at the heart of the SolidWorks structural services offered by Hamilton By Design, where drafting is treated as an engineering process rather than simple drawing production.

The Importance of Accurate Input Data

Even the best software cannot compensate for poor information. The greatest risk to any structural drafting project is inaccurate site data. Measurements taken by hand, outdated as-built drawings, or assumptions about existing steelwork often lead to clashes that only become obvious during fabrication or erection.

That is why 3D scanning has become the most appropriate method of collecting engineering data for structural design. Laser scanning captures millions of precise points across the entire site, creating a point cloud that represents reality exactly as it exists. This data can be imported directly into SolidWorks, allowing the draftsperson to design new components in the correct position relative to the real structure.

By starting with scan data rather than guesswork, structural components can be checked for fit before a single piece of steel is fabricated. This approach protects budgets, programmes, and most importantly the professional reputation of the draftsperson.

Learn more about how this process works on our 3D Scanning Services page, which explains how point clouds are captured and converted into reliable design geometry.

Quality Drafting Protects Your Reputation

Every drawing issued to a fabricator carries the name of the person who produced it. When beams align, bolt holes match, and site crews can install without modification, that draftsperson earns trust. When components clash or require rework, confidence quickly disappears.

Modern structural drafting must therefore be built on three pillars:

  1. Accurate capture of existing conditions

  2. Professional 3D modelling using tools like SolidWorks

  3. Clear, fabrication-ready documentation

Hamilton By Design’s Structural Drafting Services follow this exact workflow. Drawings are generated directly from coordinated 3D models, ensuring dimensions are consistent and interfaces are checked long before steel reaches site.

SolidWorks – More Than Just CAD

SolidWorks is not simply a drawing program; it is an engineering platform. Within the structural environment detailers can:

  • Model complex connections and assemblies

  • Check clearances and clashes in real time

  • Produce automated bills of materials

  • Generate workshop drawings directly from the model

  • Integrate with analysis and FEA tools

These capabilities allow a level of control that traditional drafting cannot match. For fabricators and engineers this means fewer variations, faster approvals, and smoother construction.

Our SolidWorks page on the Hamilton By Design website outlines how we use this platform to deliver structural projects across mining, industrial, and commercial sectors.

Fit First Time – The Real Measure of Success

The goal of structural drafting is not beautiful drawings — it is steel that fits together without rework. Combining 3D scanning, SolidWorks modelling, and experienced detailing creates a workflow where problems are solved in the office rather than on site.

Whether you are upgrading an existing plant, adding new platforms, or coordinating complex interfaces with mechanical equipment, starting with accurate data and professional modelling will always deliver the best outcome.

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Reputation is built on accurate data — and accurate data creates quality structural drafting.


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Location: Central Coast, NSW, Australia
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