The,Design,Rules,Manufacturing technology The Design Rules Of Manufacturing
The electronic cigarette is not new. People who buy electronic cigarette knows that this product has been in the market for years now. Despite some sectors apparently trying to shoot the product down from the shelves, the popularity of elect Active shredder safety technology for the small office. Shreds 15sheets per pass into 5/32" x 1-1/2" cross-cut particles (Security Level3). Patented SafeSense® Technology stops shredding when hands touch thepaper opening. Designated shredde
3D printing is very cool in my opinion. It has led to themanufacturing of a wide variety of products. These products have been very intricatein many situations, as the design rules of 3D printing are much easier tofollow than in other forms of manufacturing such as machining or molding. Therules simply arent the same; this means that some seriously intricate designsand products can be brought to life. These designs can involve full functioningparts right out of the machine, interesting feats such as a ball within a ball,and organic shapes with curves and hollow sections. Some of the same designsused in 3D printing couldnt even be pitched at other machine shops andmanufacturing plants. These places would simply have to reject those orders; itsimpossible as the design rules arent the same. Through machining, most methods involve a drill bit comingdown on a block of material, or literally a saw of some kind cutting material.CNC cutting is the strongest attribute about machining in my opinion, so letscompare 3D printing to that. CNC cutting uses a drill bit to come down upon ablock of material. Typically, this block of material can turn, angle, androtate to hit the drill bit at a certain spot. Unfortunately for this type ofmanufacturing technology, it is very difficult to replicate organic curves orshapes. This process is definitely not a layer by layer process, but a materialremoval one. The possibility of hollow spaces isnt there; its simplyimpossible. For this reason, creating intricate models that offer organiccurves, shapes, and hollow spaces are simply out of the question. 3D printing doesnt have much competition from moldmanufacturing as well. Well, that isnt entirely true. Mold manufacturing ismuch less expensive to create mass quantities of products, but these productsfollow a different set of design rules and simply cant create some of thesame products that 3D printing can. Based on the fact that plastic will be shotinside of a mold, there isnt an easy way to create hollow areas. Thepossibilities for organic shapes and curves is very doable, but the detail isntquite the same in many situations. Overall, 3D printing dominates the effortsof mold manufacturing on a small scale when it comes down to product vsproduct. When speaking in a large scale mass manufacturing situation, moldmanufacturing will typically win the bout. Various form of manufacturing serve their own purposes, butI believe product vs product, 3D printing poses one of the best options forcreating organic, curved, hollowed, and detailed pieces. The possibilitieswithin this technology are more than vast. If it can be drawn up on a computer,it can likely be 3D printed. Thats not to say that it wont fall apart if youdesign a product with .01 mm of spacing, but with little knowledge of the designrules of 3D printing, odds are that you will do alright when it comes down toproducing 3D printed parts.
The,Design,Rules,Manufacturing