</p><br/><p>At its core, manufacturable design balances innovation with practicality, ensuring products can be efficiently manufactured without compromising quality or appearance<br/></p><br/><p>Many designers focus heavily on innovation and form, but overlooking how a product will be made can lead to delays, higher costs, and quality issues down the line<br/></p><br/><p>By integrating manufacturing considerations early in the design phase, you can avoid costly redesigns and ensure smoother production<br/></p><br/><p>Begin with a clear grasp of your chosen production method<br/></p><br/><p>Each manufacturing method comes with unique constraints—respecting these from the start avoids costly surprises<br/></p><br/><p>If wall thickness varies too much in molded parts, you risk sink marks, warpage, or  <a href="http://gsianb06.nayaa.co.kr/bbs/board.php?bo_table=sub02_01&wr_id=130319">転職 未経験可</a> internal stresses that compromise durability<br/></p><br/><p>If your design has areas that are too thick or too thin, it could lead to defects<br/></p><br/><p>Always consult with your manufacturer early to learn what their equipment can handle and what tolerances they can maintain<br/></p><br/><p>Reduce complexity wherever you can<br/></p><br/><p>Reducing component count streamlines production, cuts inventory needs, and minimizes potential points of failure<br/></p><br/><p>Consider combining multiple components into one integrated piece if the material and process allow it<br/></p><br/><p>Avoid unnecessary features like undercuts or complex internal geometries unless they are absolutely required<br/></p><br/><p>Complex internal shapes demand specialized molds or machining paths, which drive up both cost and lead time<br/></p><br/><p>Standardize components and materials<br/></p><br/><p>Standardized hardware cuts lead times, lowers inventory overhead, and makes repairs easier<br/></p><img src="https://chirutomoblog.com/wp-content/uploads/2024/09/tenshoku-agent-recommend-1.jpg"><br/><p>Standard parts mean technicians can source replacements quickly without custom orders<br/></p><br/><p>Limit material variety to streamline production and reduce complexity<br/></p><br/><p>Every material shift demands new parameters, calibration, and inspection protocols<br/></p><br/><p>Tolerances should reflect functional need, not perfectionism<br/></p><br/><p>Every 0.001" of added precision can double or triple your per-unit cost<br/></p><br/><p>If a dimension doesn’t impact performance, relax it—your wallet will thank you<br/></p><br/><p>Looser tolerances often yield identical functionality while cutting costs dramatically<br/></p><br/><p>Build your product so it’s intuitive to put together<br/></p><br/><p>Consider ergonomics, visibility, and access during assembly<br/></p><br/><p>Eliminate hidden fasteners or awkward orientations<br/></p><br/><p>Smart design cues—like keyed slots or color-coded tabs—help prevent mistakes and speed up assembly<br/></p><br/><p>Intuitive assembly cuts onboarding time and minimizes quality deviations<br/></p><br/><p>Consider the end of life<br/></p><br/><p>Designing for disassembly and recyclability isn’t just good for the environment—it can also reduce disposal costs and open up opportunities for parts reuse<br/><

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