Medical Device Manufacturing

Medical Device Manufacturing

Your Medical Component Partner

Thin Metal Parts has an experienced team dedicated to providing you with the many different medical device component parts you require. 

Thin Metal Parts has been a medical device components manufacturer for many years and can manufacture the Beryllium copper, copper alloy, and stainless steel components for your medical devices. We manufacture medical device components for many products including ventilators, and many other medical devices. 

 

Commitment to quality

Thin Metal Parts is committed to quality and providing high-precision medical device parts. Thin Metal Parts is committed to quality for all of our precision manufacturing and was one of the first parts manufacturers to become ISO 9001 certified in 1997. Completed products are viewed and measured via automated inspection equipment, with magnification levels up to 350x. Depending upon the needs of the product, customers are able to customize the inspection and sampling plan.

Thin Metal Parts gives you the convenience of working with a single partner for design and prototyping to small and large batch runs. 

Thin Metal Parts holds to the high-quality standards for all manufacturing, prototype, small runs, and large runs. Customers will find quality products and service no matter the number of parts or the precision required.

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'); } $container = $image.parent('.magnify'); // Create the magnifying lens div if necessary if ($image.prev('.magnify-lens').length) { $container.children('.magnify-lens').css('background-image', 'url(\'' + sZoomSrc + '\')'); } else { $image.before('
'); } $lens = $container.children('.magnify-lens'); // Remove the "Loading..." text $lens.removeClass('loading'); // Cache dimensions and offsets for improved performance // NOTE: This code is inside the load() function, which is important. The width and // height of the object would return 0 if accessed before the image is fully loaded. nImageWidth = oOptions['finalWidth'] || $image.width(); nImageHeight = oOptions['finalHeight'] || $image.height(); nMagnifiedWidth = oOptions['magnifiedWidth'] || elZoomImage.width; nMagnifiedHeight = oOptions['magnifiedHeight'] || elZoomImage.height; nLensWidth = $lens.width(); nLensHeight = $lens.height(); oContainerOffset = getOffset(); // Required by refresh() // Set zoom boundaries if (oOptions['limitBounds']) { nBoundX = (nLensWidth/2) / (nMagnifiedWidth/nImageWidth); nBoundY = (nLensHeight/2) / (nMagnifiedHeight/nImageHeight); } // Enforce non-native large image size? if (nMagnifiedWidth!==elZoomImage.width || nMagnifiedHeight!==elZoomImage.height) { $lens.css('background-size', nMagnifiedWidth + 'px ' + nMagnifiedHeight + 'px'); } // Store zoom dimensions for mobile plugin $image.data('zoomSize', { 'width': nMagnifiedWidth, 'height': nMagnifiedHeight }); // Store mobile close event for mobile plugin $container.data('mobileCloseEvent', oDataAttr['mobileCloseEvent'] || oOptions['mobileCloseEvent']); // Clean up elZoomImage = null; // Execute callback oOptions.afterLoad(); // Simulate a lens move to update positioning if magnifiedWidth/magnifiedHeight is // updated while the lens is visible if ($lens.is(':visible')) moveLens(); // Handle mouse movements $container.off().on({ 'mousemove touchmove': moveLens, 'mouseenter': function() { // Need to update offsets here to support accordions oContainerOffset = getOffset(); }, 'mouseleave': hideLens }); // Prevent magnifying lens from getting "stuck" if (oOptions['timeout']>=0) { $container.on('touchend', function() { setTimeout(hideLens, oOptions['timeout']); }); } // Ensure lens is closed when tapping outside of it $('body').not($container).on('touchstart', hideLens); // Support image map click-throughs while zooming var sUsemap = $image.attr('usemap'); if (sUsemap) { var $map = $('map[name=' + sUsemap.slice(1) + ']'); // Image map needs to be on the same DOM level as image source $image.after($map); $container.click(function(e) { // Trigger click on image below lens at current cursor position if (e.clientX || e.clientY) { $lens.hide(); var elPoint = document.elementFromPoint( e.clientX || e.originalEvent.touches[0].clientX, e.clientY || e.originalEvent.touches[0].clientY ); if (elPoint.nodeName==='AREA') { elPoint.click(); } else { // Workaround for buggy implementation of elementFromPoint() // See https://bugzilla.mozilla.org/show_bug.cgi?id=1227469 $('area', $map).each(function() { var a = $(this).attr('coords').split(','); if (nX>=a[0] && nX=a[1] && nY

Material Types for Medical Device Components

  • Beryllium Copper
  • Copper Alloys 
  • Stainless Steals 

Innovative Manufacturing Solutions

The experienced team at Thin Metal Parts can work closely with you to create custom medical device components that fit seamlessly into your current device manufacturing system. Thin Metal Parts can provide suggestions for a CAD design or collaborate with you to create a completely custom medical device part for your needs. 

Contact Thin Metal Parts today and let us help you develop your medical device components in the best material, design, and process for your needs.


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Using three different technologies, custom metal parts can be built for thousands of applications for a large variety of industries. By combining multiple technology options, a hybrid precision part, unavailable anywhere else in the global marketplace, can be custom manufactured.

Thin Metal Parts regularly works with the aerospace, computer, and electronic industries to build custom precision parts used in industrial and consumer goods applications... parts such as metal encoder wheels, metal mesh, metal sieves, and print heads. In addition, custom parts are developed daily in research and development as the design/process engineer group teams with customers to develop prototypes and production items in medical, manufacturing, and scientific instrument sectors.

All products are custom manufactured to meet customer needs and specifications, including DFARS and RoHS compliance. These quick-turn, cost-effective, low tooling cost processes offer excellent production alternatives to traditional fabrication methods for metal parts in high volumes and prototyping.

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