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1015 is stronger

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Q: Which is stronger 1010 carbon steel or 1015 carbon steel?
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How much carbon in 1030 steel?

All plain Carbon Steels have been used for many years and with many applications ranging from Art work, Auto Body parts, Car frames, and hand rails to even some Structures. Plain Carbon Steels are basically made up of 99.90 % or more Iron for low carbon steel and 99.55 % or less Iron for high carbon steels and the rest of the few tenths of a percent is made up of carbon. For the Society of automotive Engineers numbering system uses the last two digits in their numbering system to help describe the last tenths of a percent of carbon added to that one percent remaining. There really is only a small amount of carbon added to the Iron to make up Plain Carbon steel, and that little added amount, helps to make for a big difference between their Mechanical properties. The other alloying elements are Manganese, Silicon, Copper, and with incidental amounts of Sulfur and Phosphorus The percentages of carbon present SAE 1080 steel is eight tenths or 80% of one percent Carbon and with SAE 1020 containing two tenths or 20 % of one percent of Carbon, and SAE 1010 even less only one tenth or 10% of one percent, this is a very small amount. Typically Carbon steels are broken down into four basic types. (Low Carbon or Rimmed steel with anything lass then or up to SAE 1005 - 1015), (Mild Steel SAE 1016 - 1029), (Medium Carbon or plow Steel SAE 1030- 1059) and (High Carbon Steels 1060 - 1080 and even higher as high as 1.70%of carbon). All low carbon and mild steels do not responded to heat treatment, at all. They can be case hardened, they can also be joined by either brazing or welding provide their surface area of attachment most be cleaned and is bare metal. Low Carbon or Rimmed can be formed and shaped well sometimes it's been used in to shape car fenders. Mild Steel has many uses it's been used for Car frames, Furniture, Gates, Hand rails and almost anywhere you look theirs is something made with it, it is a very common grade of Plain Carbon Steel. Medium Grade or Plow Steel like SAE - 1035 as name implies is used at times for the fabrication of Plows, for the fields Car parts. It is a very tough Carbon Steel , it does respond to heat treatments and where both high Tensile and Yield strengths are desired and higher then both those of Low Carbon and Mild Steels can offer, but also with less elongation or stretch before failure. It has less plasticity or ductility then low Carbon or Mild Steels do, or less allowable permanent plastic deformation in the material properties. The HAZ or Heat affected zones next to any of the welds will most likely be required to normalize the material after welding. A careful choice must be made by welders when selecting welding rods which meet or match the same chemical composition in any welded base material before welding , the delutment of both the welding rod and its base metal is critical for a proper weld if careful choice is not made for the selection of Weld rods, weld process and of heat treatments process after words, Problems can occur like micro cracks which form in the HAZ zone next to the weld which can lead to failure.


What is after peta byte?

A petabyte is either 1 000 000 000 000 000 bytesor 1024 x 1024 x 1024 x 1024 x 1024 bytes.It is the next in the series kilobyte, megabyte, gigabyte, terabyte, petabyte, ...peta means 1015 but in computing 1000 and 1024 sometimes get interchanged.


Problems of one pass assembler?

The translation performed by an assembler is essentially a collection of substitutions: * machine operation code for mnemonic * machine address for symbolic * machine encoding of a number for its character representation, etc. Except for one factor these substitutions could all be performed in one sequential pass over source text.The factor is the forward reference(reference to an instruction which has not yet been scanned by assembler). Now it's that the separate passes of two pass assemblers are required to handle forward references without restriction. Now if we impose certain restriction that means handling forward references without making two passes. These different sets of restrictions lead to one pass assembler. And these one-pass assembler are particularly attractive when secondary storage is either slow or missing entirely, as on many small machines.