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Yes, you can download your logo instantly after you create it. You can also use our search function to find logos that match your specific industry or keywords. Yes, you can browse our gallery of logos to get inspiration for your own logo. Just contact us and let us know what you need. We can change the colors, fonts, layout, and more. Yes, our talented designers can customize your logo to fit your specific needs. The high-quality JPG and PNG files that you receive can be used for both print and web. Yes, you can use your logo in print and on the web. You can use these files for print or web.Ĭan I use the logo in print and on the web? When you create a logo with GraphicSprings, you will receive high-quality JPG and PNG files. You can also use your logo on social media sites like Facebook and Twitter. Your logo can be used on your website, business cards, letterhead, and more. The layout should be easy to read and recognize. The colors and fonts should be easy to see. The most important thing is to make sure the logo is simple and easy to remember. There are several things that can make a logo memorable. The logo should be easy to read and recognize. The best layout for a mechanic logo is one that is simple and easy to remember. These fonts convey a sense of strength and stability. The best fonts to use for a mechanic logo are sans-serif fonts like Arial or Helvetica. If you want to convey a sense of trustworthiness and dependability, then you should use lighter colors like light blue or green. If you want to convey a sense of strength and durability, then you should use darker colors like black or dark blue. The colors you use in your logo will depend on the type of business you have. The mechanic logo is also a great choice for businesses that want to convey a sense of strength and durability. It can be used by auto repair shops, car dealerships, and more. However, Pareto charts of the main effects of parametric interactions showed that the normal load was the main factor that must be considered when studying the tribological properties of Al–Si alloys.A mechanic logo is perfect for businesses in the automotive industry. speed, normal load and time showed increased mass loss when the three controlled parameters were increased.
The response surfaces of the mass loss vs. On the other hand, Al–1.5%Si alloy showed poorer resistance to wear because the mass loss action was dominated by a particle detachment mechanism. The improved wear resistance in this case could be due to the presence of Diamond-Si hard phase in large quantities compared with other compositions. Al–13.5%Si alloy with a high microhardness number (47.16 HV) showed excellent resistance to wear and exhibited a smoother surface at the end-of-wear test. The average microhardness number was directly proportional to the Si concentration. The microstructure of Al–13.5%Si alloy showed a uniform layered structure of FCC-Al + Diamond Si eutectic. Coarse eutectic dendrites surrounding the primary FCC-Al grains were observed in Al–1.5%Si alloy. The microstructure of Al–1.3%Si alloy was described as a fine eutectic colonizing in the FCC-Al phase matrix. The surface roughness index ( Ra) of the worn surfaces was determined by using a profilometer. The dry sliding wear test was carried out using a pin-on-disc apparatus by varying the rotational speed (250, 350, and 450 rpm), normal load (5, 10 and 20 N) and test time (5, 10 and 15 min) at a constant sliding diameter of 300 mm. Microhardness numbers and mechanical behavior parameters were determined by using a microhardness indenter and compression test, respectively. The specimens were examined by using an optical microscope to investigate the microstructural features of pin materials.
The microstructure, mechanical properties, and wear behavior of three Al–Si alloys, namely: Al–1.3%Si, Al–1.5%Si and Al–13.5%Si were investigated.