When you deal with diverse document types like Evaluation Form, you understand how important accuracy and attention to detail are. This document type has its specific structure, so it is crucial to save it with the formatting intact. For this reason, working with this kind of paperwork might be a challenge for traditional text editing applications: a single incorrect action may ruin the format and take extra time to bring it back to normal.
If you want to blot pattern in Evaluation Form with no confusion, DocHub is a perfect tool for such duties. Our online editing platform simplifies the process for any action you may need to do with Evaluation Form. The streamlined interface is proper for any user, no matter if that individual is used to working with such software or has only opened it the very first time. Gain access to all editing tools you need easily and save your time on everyday editing activities. You just need a DocHub profile.
See how effortless papers editing can be irrespective of the document type on your hands. Gain access to all top-notch editing features and enjoy streamlining your work on documents. Sign up your free account now and see immediate improvements in your editing experience.
welcome back to the channel in today's video we'll show you how to calculate the minimum bolt diameter required to resist uplift forces let's start with a worked example we have a steel column held down by 4 grade 8.8 bolts cast into a concrete foundation and subjected to a 250 kilonewtons design uplift force how should we figure out what the minimum bolt diameter should be the design tensile capacity of a bolt is given by this equation fub is the ultimate tensile strength of a bolt the two commonly used grades are 4.6 and 8.8 grade 4.6 bolts are common mild steel and sometimes referred to as black bolts grade 8.8 bolts are higher in strength the first number refers to the ultimate tensile strength of the bolt and the second number gives a multiplier to get the yield stress for example a grade 8.8 bolt has an ultimate tensile strength of 800 newton per millimeter squared and a yield stress of 800 times 0.8 which equals 640 newton per millimeter squared a s is the bolt tension area the...