It is best to include specific product data in the BOM record since one of the key purposes of the BOM is to guarantee that the product is produced correctly. Here's a high-level list of details to put in your bill of materials (BOM) record, regardless of whether you're making one for the first time or want to learn how to do it better:

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Part Number: To facilitate fast reference and identification of parts, give each part or assembly a part number. Manufacturers frequently select between using an intelligent or non-intelligent part numbering scheme. Be careful not to create several part numbers for the same part, regardless of the method you use.

BOM Level: Designate a number for every component or assembly to indicate its position within the BOM hierarchy. This makes it possible for anyone who is familiar with the BOM structure to immediately grasp the BOM.

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Part Name: Make a note of each assembly's special name. This will make it easier for you to identify parts.

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Phase: Note the lifecycle stage at which each component is now. It is customary to designate the stage of a component that is under production with a phrase like "In Production." Parts that are new and not yet authorized can be categorized as "In Design" or "Unreleased." This is useful for new product introduction (NPI) as it makes it simple to monitor development and establish reasonable project schedules.

Description: Give each part a thorough description so that you and others may more quickly recognize particular parts and distinguish them from similar parts.

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Quantity: Keep track of the amount of parts required for every assembly or subassembly to inform purchase and production choices.

Unit of Measure: Indicate the scale by which a component is to be bought or utilized. Although "each" is frequently used, other common measurements such as inches, feet, ounces, and drops can also be appropriately classified. Maintain uniformity among all comparable part types, since the data will aid in guaranteeing that the appropriate amounts are acquired and supplied to the manufacturing process.

Procurement Type: To improve manufacturing, planning, and procurement efficiency, keep track of every component's purchase or manufacturing process (i.e., manufactured to specification vs. off-the-shelf).

Material handling is a critical aspect of steel detailing, as it involves the movement, storage, and transportation of steel materials from the supplier to the fabrication site and ultimately to the construction site. Effective material handling practices are essential for ensuring that steel materials are delivered on time, in the right quantities, and in good condition. In steel detailing, material handling involves several key steps, including:

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1. Material ordering: Engineers and architects provide detailed material lists to suppliers, specifying the type, size, and quantity of steel required.

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2. Material receiving: The fabricator receives the steel materials from the supplier and checks them against the BOM to ensure that they meet the required specifications.

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3. Material storage: The fabricator stores the steel materials in a secure and organized manner, using racks, shelves, or other storage solutions to optimize space utilization and minimize damage.

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4. Material handling equipment: The fabricator uses various types of handling equipment such as cranes, forklifts, and hoists to move the steel materials around the fabrication site safely and efficiently.

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5. Material transportation: The fabricator transports the steel materials to the construction site using trucks, trailers, or other modes of transportation, ensuring that they are properly secured and protected during transit.

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By implementing effective material handling practices in steel detailing, fabricators can reduce costs, improve efficiency, minimize waste, and enhance safety and quality control throughout the entire steel fabrication process.