Industrial maintenance technician salary: Industrial Maintenance Technician Salary (March 2023)

Опубликовано: May 16, 2023 в 6:00 am

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Категории: Miscellaneous

Industrial Maintenance Technician Salary (March 2023)

Updated February 6, 2023

$50,649yearly

To create our salary estimates, Zippia starts with data published in publicly available sources such as the U.S. Bureau of Labor Statistics (BLS), Foreign Labor Certification Data Center (FLC) Show More

$24.35 hourly

Entry level Salary

$38,000

yearly

$38,00010%

$50,649Median

$66,00090%

How much does an Industrial Maintenance Technician make?

Industrial maintenance technicians make $50,649 per year on average, or $24.35 per hour, in the United States. Industrial maintenance technicians on the lower end of that spectrum, the bottom 10% to be exact, make roughly $38,000 a year, while the top 10% makes $66,000.

Location impacts how much an industrial maintenance technician can expect to make. Industrial maintenance technicians make the most in Alaska, Washington, Hawaii, California, and Rhode Island.

Highest Paying State

Alaska

Highest Paying City

Richmond, CA

Highest Paying Company

Boehringer Ingelheim

What Am I Worth?

Highest Paying State

Alaska

Highest Paying City

Richmond, CA

Highest Paying Company

Boehringer Ingelheim

What Am I Worth?

Highest Paying States For Industrial Maintenance Technicians

Throughout the U.S., the average salary for an industrial maintenance technician is roughly $50,649 per year, which boils down to $24.35 per hour. Interestingly enough, industrial maintenance technicians have the highest salaries in Richmond, CA at about $61,046 per year. For those who are just starting out, the average entry-level salary in Richmond, CA is $42,000. Additionally, industrial maintenance technicians make more than the average salary in Seattle, WA, Aurora, IL, Lafayette, CO, Philadelphia, PA, and Richmond, VA. On a more broad level, industrial maintenance technician salaries are highest in Alaska, Washington, Hawaii, California, Rhode Island, Illinois, and New York. On the contrary, South Dakota, South Carolina, and Florida offer the lowest industrial maintenance technician salaries.

  • State View
  • County View

Average Salary:

Industrial Maintenance Technician average salary by State

Rank State Avg. Salary Hourly Rate Job Count
1 Alaska $69,577 $33.45 213
2 Nebraska $52,532 $25.26 564
3 Nevada $53,750 $25.84 465
4 Illinois $54,764 $26.33 2,660
5 Washington $59,638 $28.67 1,318
6 Colorado $53,630 $25. 78 1,492
7 Wisconsin $50,718 $24.38 1,351
8 Rhode Island $56,604 $27.21 162
9 Kentucky $50,366 $24.21 906
10 Connecticut $54,039 $25.98 692
11 New Hampshire $52,037 $25.02 343
12 Arizona $50,123 $24.10 1,450
13 Indiana $48,407 $23.27 1,691
14 Utah $51,018 $24.53 670
15 Pennsylvania $51,840 $24.92 2,041
16 California $57,385 $27.59 5,566
17 Massachusetts $54,129 $26.02 1,639
18 New Jersey $54,113 $26.02 1,415
19 Minnesota $49,689 $23. 89 1,461
20 Iowa $46,462 $22.34 1,377
21 New York $54,353 $26.13 2,196
22 Ohio $48,566 $23.35 2,063
23 Montana $50,495 $24.28 208
24 Maryland $53,846 $25.89 1,234
25 Delaware $50,368 $24.22 278
26 Hawaii $57,519 $27.65 164
27 Georgia $47,923 $23.04 2,617
28 Virginia $51,992 $25.00 1,752
29 Texas $49,627 $23.86 3,947
30 District of Columbia $58,334 $28.05 189
31 Vermont $49,630 $23.86 160
32 Tennessee $46,654 $22. 43 1,286
33 North Carolina $46,912 $22.55 2,290
34 North Dakota $48,570 $23.35 136
35 Maine $44,823 $21.55 396
36 Missouri $46,959 $22.58 1,248
37 Wyoming $46,883 $22.54 97
38 Kansas $45,868 $22.05 648
39 Michigan $44,499 $21.39 1,736
40 Alabama $45,677 $21.96 818
41 Oregon $48,016 $23.08 693
42 Florida $42,667 $20.51 4,146
43 South Carolina $42,689 $20.52 1,100
44 Mississippi $41,061 $19.74 563
45 West Virginia $43,858 $21. 09 259
46 Arkansas $43,544 $20.93 473
47 Idaho $45,739 $21.99 250
48 Oklahoma $44,244 $21.27 468
49 South Dakota $43,157 $20.75 167
50 Louisiana $41,679 $20.04 656
51 New Mexico $42,195 $20.29 282

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Top Industrial Maintenance Technician Jobs Near You

Highest Paying Cities For Industrial Maintenance Technicians

Rank City Avg. Salary Hourly Rate
1 Richmond, CA $61,046 $29.35
2 Seattle, WA $60,018 $28.85
3 Aurora, IL $54,797 $26.34
4 Lafayette, CO $53,707 $25.82
5 Philadelphia, PA $52,178 $25.09
6 Richmond, VA $51,800 $24.90
7 El Paso, TX $50,802 $24.42
8 Madison, WI $50,510 $24.28
9 Richmond, KY $50,218 $24.14
10 Phoenix, AZ $50,201 $24.14
11 Cleveland, OH $49,696 $23.89
12 Mankato, MN $49,533 $23.81
13 Richmond, IN $48,464 $23.30
14 Atlanta, GA $47,924 $23. 04
15 Beaverton, OR $47,902 $23.03

Industrial Maintenance Technician Salary by Years of Experience

The salary for an industrial maintenance technician can vary depending on the years of experience that a person has, from entry level to senior level. An accountant with 0-2 years of experience earns an average salary of $33,920, a mid-career professional with 3-6 years of experience makes $50,649 a year on average, and a senior level accountant with 7-12 years of experience enjoys an average annual salary of $71,855. Data on how experience level affects total compensation is provided by the Bureau of Labor Statistics (BLS) as part of their National Compensation Survey, which is based on factors such as knowledge, complexity, contacts, and environment.

Entry Level

Senior Level

Which Companies Pay Industrial Maintenance Technicians The Most?

The highest paying companies for industrial maintenance technicians are Boehringer Ingelheim and CertainTeed according to our most recent salary estimates. In addition, companies like Baker Hughes and Shearer’s Foods report highly competitive wages for industrial maintenance technicians.

How Much Do Industrial Maintenance Technicians Make In Different Industries?

Here are some examples of how much an industrial maintenance technician salaries can based on different industries:

  1. The manufacturing industry pays industrial maintenance technicians an average salary of $53,065

  2. The automotive industry pay $52,251

  3. The lowest paying industry for industrial maintenance technicians is the professional industry. Industrial maintenance technicians in this industry earn an average salary of $47,838

Highest Paying Industries For Industrial Maintenance Technicians

Rank Indu­stry Average Salary Hourly Rate
1 Manufacturing $53,065 $25.51
2 Automotive $52,251 $25. 12
3 Retail $51,832 $24.92
4 Technology $50,424 $24.24
5 Professional $47,838 $23.00

High Paying Industrial Maintenance Technician Jobs

Recently Added Industrial Maintenance Technician Salaries

Industrial Maintenance Mechanic Salary the United States


Average Base Salary


Average Hourly Rate

$35.73 (USD)/hr


Average Bonus

$12,507 (USD)/yr

Compensation Data Based on Experience

The average industrial maintenance mechanic gross salary in United States is $74,313 or an equivalent hourly rate of $36. In addition, they earn an average bonus of $12,507. Salary estimates based on salary survey data collected directly from employers and anonymous employees in United States. An entry level industrial maintenance mechanic (1-3 years of experience) earns an average salary of $42,487. On the other end, a senior level industrial maintenance mechanic (8+ years of experience) earns an average salary of $94,198.


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Estimated Salary in 2028:

$90,066 (USD)



5 Year Change:

21 %

Based on our compensation data, the estimated salary potential for Industrial Maintenance Mechanic will increase 21 % over 5 years.

Examines blueprints

100%

Proposes products

43%

Sells engineering services

14%


This chart displays the highest level of education for:
Industrial Maintenance Mechanic, the majority at 50% with high schools.

See how education can impact your salary

  • Columbus



    1 %

  • Dallas



    5. 3 %

  • Portland



    3.1 %

  • North Carolina



    3 %

  • Ohio



    2. 6 %

  • New Mexico



    6.7 %

  • Bahamas



    24.8 %

  • Bulgaria



    354. 7 %

  • Japan



    55.6 %

  • Russian Federation



    339.9 %

  • United States



    0 %

the United States

Cost of living is calculated based on accumulating the cost of food, transportation, health services, rent, utilities, taxes, and miscellaneous.

View Cost of Living Page

The United States of America (U.S.A. or USA), commonly known as the United States (U.S. or US) or America, is a country primarily located in North America. It consists of 50 states, a federal district, five major unincorporated territories, nine Minor Outlying Islands, and 326 Indian reservations. The United States is also in free association with three Pacific Island sovereign states: the Federated States of Micronesia, the Marshall Islands, and the Republic of Palau. It is the world’s third-largest…

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Sell business goods or services, the selling of which requires a technical background equivalent to a baccalaureate degree in engineering. Excludes “Engineers” (17-2011 through 17-2199) whose primary function is not marketing or sales.
Read More


account_balance Madden Industrial Craftsmen, Inc.

location_on Portland


Madden Industrial is seeking an experienced Maintenance Mechanic to join our client’s team in the food industry. The successful candidate will be responsible for ensuring the proper functioning and …



account_balance Aegis Worldwide

location_on Woodburn


… looking to add a maintenance mechanic to their team on first shift. Essential Functions … Repair, install, and adjust industrial machinery and Automated distribution systems. * Troubleshoot …



account_balance Madden Industrial Craftsmen, Inc.

location_on Renton


Madden Industrial Craftsmen is seeking a temp to hire Industrial Mechanic on behalf of our client . .. Maintenance technician: 1 year (Preferred) * Manufacturing company: 1 year (Preferred) * Must be …

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This page is a promotion for SalaryExpert’s Assessor Platform and is not intended for professional use.

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ERI’s compensation data are based on salary surveys conducted and researched by ERI. Cost of labor data in the Assessor Series are based on actual housing sales data from commercially available sources, plus rental rates, gasoline prices, consumables, medical care premium costs, property taxes, effective income tax rates, etc.

Examines blueprints

100%

Proposes products

43%

Sells engineering services

14%

See how skills can impact your salary

  • Columbus



    1 %

  • Dallas



    5. 3 %

  • Portland



    3.1 %

  • North Carolina



    3 %

  • Ohio



    2. 6 %

  • New Mexico



    6.7 %

  • Bahamas



    24.8 %

  • Bulgaria



    354. 7 %

  • Japan



    55.6 %

  • Russian Federation



    339.9 %

  • United States



    0 %

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    Repair production

    Articles on the topic:
    1С:ERP Enterprise management, Repairs, ERP Academy

    Briefly about the article

    The scope of activity of many manufacturing enterprises includes not only the manufacture of new products, but also the provision of services for its repair (warranty, capital, current).

    The article discusses the capabilities of the 1C: ERP system for automating the accounting of repair work.

    • In the first part, a large end-to-end example is analyzed, based on the real requirements of an aircraft manufacturing enterprise.

    • The second part of the article briefly outlines other 1C: ERP features for automating repair production, describes work patterns and accounting features.

    In addition to the article, we recommend a webinar:

    Webinar “Management of repair production in 1C: ERP”

    Issues

    At first glance, it may seem that there is nothing complicated in repair production: knowing the manufacturing technology, you can easily disassemble the product, replace parts and assemble it again.

    In fact, the repair process is a unique sequence of technological operations to bring the repaired product to a working state.

    The implementation of this process involves careful design and technological preparation: the development of working drawings, specifications, technological maps, the design and manufacture of special tools and devices, the determination of the need for spare parts, materials, equipment and tools.

    One way or another, this is all inherent in the process of manufacturing products. So what is the complexity of automating the repair production?

    • Before disassembly, the composition of the product is often unknown . This is typical for technologically complex products (aviation, mechanical engineering, engine building, etc.), where each item has a unique composition due to frequent changes in design documentation and individual parameters requested by the client when ordering.

    • It is not known for how the repair of a particular instance of will look, it depends on the results of disassembly and defect. We do not know which parts will need to be repaired or replaced until we disassemble the product received for repair.

    • It is necessary to plan in advance the purchase of materials and components, taking into account the likelihood of different fault outcomes. If you purchase materials only for actual needs, the repair period may be delayed. Procurement planning based on pre-collected statistics makes it possible to minimize these risks and complete the work on time /

    Enterprise business process

    Consider the process of repair production using the example of one of the aircraft manufacturing enterprises.

    Repair Management Process Diagram

    Sales department. The sales department receives requests from customers for the repair of previously purchased equipment. Applications go through the approval procedure and are added to the repair plan.

    Supply Department. In order not to delay the repair of a product that has arrived at the factory, the supply service purchases some of the materials and purchased components in advance. The list of such nomenclature is determined by the mandatory replacement lists. The mandatory replacement list is those materials and DSE that will need to be replaced during repairs in 100% of cases. The inclusion of DSE in the statement is regulated by the product repair manual.

    Production. When equipment arrives for repair, it is transferred to the responsible workshop for repair work. The repair process can be conditionally divided into two parts: disassembly and defect, repair and assembly.

    First stage – disassembly and inspection

    Detection is the process of checking the condition of parts and assemblies by comparing actual indicators with technical documentation data.

    The main task of troubleshooting work is not to miss the parts that need to be replaced for assembly and not to send the good ones for marriage.

    Based on the results of the fault detection, an act is drawn up, which contains:

    • list of parts and assembly units (DSE) recognized as unusable;

    • DSE and units requiring further disassembly and inspection;

    • valid SCUs (this can be either a complete list of all SCUs received after disassembly, or a list limited to the main components whose storage must be controlled).

    For each unsuitable SFU, the method of supply is determined (purchase or production) and a corresponding task is created. If the required SSE is in stock, an application is made for transfer to the workshop for repair and assembly.

    DSE and units for further disassembly, if necessary, are transferred to another workshop, where a similar procedure is performed.

    Second stage – repair and assembly

    When the shop has received all the requested SCUs, it repairs the assembly and returns it to the sender. This chain is repeated up to the product received from the client.

    Assembly and repair work, as a rule, is accompanied by a route sheet that describes the work performed and the actual consumption of materials and DSE.

    The repaired product is transferred to the shipment warehouse, after which it is returned to the customer.

    Cross-cutting example in 1C:ERP

    Let’s see how to implement the described process in 1C: ERP.

    Reference information

    We create a resource specification with the type “Repair” . Steps 1-4 will set up this resource specification.

    Step 1

    On the “Production process” tab, add the required number of stages. In our example, this is:

    • disassembly and inspection;
    • repair and assembly.
    Step 2

    On the “Side and intermediate exit” tab, we indicate the DSE that appear during the disassembly process.

    Completion of side output in resource specification

    It is necessary to decide how complete this list will be based on the number of SSEs in the repaired equipment and the customer’s requirements for maintaining warehouse records.

    1C:ERP allows you to keep records of both all components, up to the bolt, and only key assemblies that require further repair or inventory in the warehouse.

    Step 3

    On the “Materials and Works” tab, we list the DSE and materials that will be required at the assembly stage. These include:

    • DSE obtained during disassembly. If it is known in advance that the DSE must also go through the defect detection and repair procedure (if necessary), then the Repair according to specification flag should be set in the material receipt method and the specification should be indicated;

    • DSE and materials from the mandatory replacement list.

    Populate the material list and DSE for an assembly step

    Set material application settings

    Many plants, in addition to the mandatory replacement list, plan purchases taking into account the shift coefficients of the DSE. This metric tells you how likely it is that the DSE will need to be replaced or repaired.

    In 1C:ERP, the shift factor can be entered for any line of materials. To do this, you need to fill in the “Probability” field in the “Material Application” form.

    In order to take into account materials and DSE when planning, but only use it in production if necessary, select the “On Demand” application method.

    In this case, they can be added manually to ensure the production stage by calling the “Pick by specification” command.

    Step 4

    On the “Labor costs” tab, we indicate the list of work for each stage or for the specification as a whole.

    Completing planned work

    Here you can follow the same rules as for materials – specify only fixed labor costs. The work that occurred during the repair process should be registered after the fact – in the document “Production stage”.

    Repair and planning orders

    In 1C:ERP, the process of repairing customer equipment is recorded through production documents from customer-supplied raw materials.

    Step 5

    In the system, we create a document “Order of the supplier” with the type “Repair”.

    On the tab “Raw materials and materials for production” we indicate the nomenclature received from the client, on the tab “Manufactured products” – the nomenclature that will be obtained after the repair. In our case, this is the same directory element.

    What if you need material accounting for different nomenclature?

    If material accounting is required according to different nomenclature (from the client we receive “Broken Product”, at the output – “Repaired Product”), at the design stage of the NSI, you should choose a scheme of work with two specifications: for disassembly of the “Broken Product” and assembly of the “Repaired Product”. And indicate them on the corresponding tabs of the order of the giver. See below the scheme “First disassemble everything – then assemble everything.”

    In the document, we fix the specification according to which the work will be carried out, and the cost of repair services.

    If, in addition to the product, the client transfers his own spare parts, we also include them in the tabular section “Raw materials and materials for processing”.

    Order from a dealer for repairs

    You can read more about paperwork when processing customer-supplied raw materials at 1C:ITS

    Planning scenario setup window

    Step 6

    To get the planned need for materials and components for repairs, we create a “Production Plan” with a separate type and filling rule – “By order of the givers”.

    To automatically calculate the need for materials during production planning, in the scenario, you need to set the checkbox “Calculation of requirements for materials, types of distribution center and labor resources” and select the appropriate strategy for calculating needs.

    The rules for calculating the requirements for materials in the production plan, depending on the chosen strategy, are described below:

    • Most probable – all materials (basic and on demand) are planned according to the set probability.

    • Optimistic – Basic materials are planned without probability, On Demand materials are not planned.

    • Pessimistic – basic materials are planned without probability, On Demand materials are planned with probability.

    An example with calculation results is given in the table.

    Dependence of planned quantity on resource specification settings

    After the approval of the “Production Plan”, the result of the calculation can be viewed in the contextual report “Planned requirement for materials”.

    Planned material requirement report

    Advance provision of workshops with materials and components is carried out in the “Formation of orders to the supplier according to plans” workplace.

    Acceptance of equipment for repair

    Step 7

    To reflect in the system the receipt of equipment from the client, we create the document “Receipt of raw materials from the supplier”.

    Receipt of raw materials from the supplier

    Step 8

    To transfer the order to start repair work, we also create a “Production Order”. Both documents can be created on the basis of a supplier’s order.

    We form the stages from the production order. To do this, go to the order structure and click the “Create” button.

    Order structure. Command for forming a chain of stages Formed structure of stages

    Product inspection and repair

    To reflect the results of fault detection in the system, perform steps 9, 10 and 11.

    The result of filling in the tabular part “Issue” in the stage for disassembly

    Step 9

    At the stage “1. Disassembly and Detection” on the Release tab, specify all SSEs that should appear in the warehouse after disassembly.

    In our example, materials and works were not filled in the resource specification, so we fill in the tabular part manually.

    In order to exclude the possibility of using the received DSE for other purposes (for example, for the manufacture of new products), you must indicate the purpose in the “Destination” column – the contract under which the repair is being carried out.
    Unusable or missing SCUs added automatically from the resource specification must be removed or canceled from the tabular part.

    The result of filling in the tabular part “Provision” in the assembly stage

    Step 10

    At the stage “2. Repair and Assembly” on the “Provision” tab, specify the DSE that will be required for assembly.

    Here should be all the DSEs that will be released at stage 1, and those that were found to be unusable or were absent during the fault detection.

    For DSE that need to be repaired, set the flag “Produced in the process” and indicate the specification for repair. In our example, these are “Pilot’s cockpit” and “HB sheathing”.

    Step 11

    After the results of the fault detection are entered into the system, the stages must be finalized. This operation will become available in the stages structure if at least one line marked “Produced in process” has been added.

    Updated order structure

    New production steps have appeared in the system for added DSUs that require repair.

    Document “Product transfer from production”

    Repair of components

    Step 12

    The repair of components is processed in the system in the same way as the product accepted for repair: first, the disassembly and defect stage is performed with the release of components (if necessary), then the repair and assembly stage.

    If DSUs are being repaired in another workshop, a transfer document is created for them after disassembly. The action is available on the basis of the “Production stage” document and in the “Invoices for processing” workplace.

    After the assembly is completed, the workshop foreman closes the “Production stage” and formalizes the transfer to the consumer workshop.

    Manufacturing under repair

    Let us consider the case when, in the process of fault detection, it turns out that the SFE cannot be repaired.

    Step 13

    For example, during the fault finding of the part “HB Sheathing”, it was determined that it needed to be replaced with a new one. Then, at the stage of repair and assembly of the HB plating, on the Provision tab, add it to the tabular part, indicating the type of provision: “Provide” or “Provide separately”.

    At the stage of repair and assembly of the “HB Sheathing”, we indicate that a new “HB Sheathing” is required

    At the same time, the need for this DSE will appear in the system. It will be reflected in the workplace for generating orders according to needs. Depending on the configured demand fulfillment method, the system will offer to create an order to the supplier or a production order.

    Another case: during the fault detection of the node, it was fixed that the DSE was absent.

    If the DSE was specified in the specification, it should be deleted at the defect detection stage or the release should be canceled with an indication of the reason, but left at the assembly stage, specifying the manufacturing specification. If the DSE was not specified in the node specification, then in step “2. Repair and assembly” it must be added to the “Provision” tab.

    At the fault detection stage, we cancel the missing DSE At the assembly stage, we add the DSE that was absent during fault detection

    In order for the stages of manufacturing to be completed in the general repair tree, set the flag “Produced in the process” and select a specification for manufacturing. If this is not required, leave the values ​​blank. Then it will be possible to launch the production of DSE through the workplace “Formation of orders according to needs”.

    Ship to customer and close orders

    Step 14

    After the repair is completed, we close the “Order for production”. The system will verify that all stages are closed and the DCUs are consumed. The check is performed only by stages from the order structure. PCUs triggered by separate manufacturing orders do not participate in the check.

    Step 15

    Now you can ship the repaired product to the customer:

    1. In the Supplier’s order document, set the status: “For shipment” or “Closed”.

    2. We create the document “Transfer to the giver” on the basis.

    Additional schemes for managing repairs in 1C:ERP

    Other features of the system are described below and an example is given in which case it is worth considering them. They can be used as a ready-made scheme or combined in various variations.

    Scheme “First disassemble everything – then reassemble everything”

    The scheme should be considered in the following cases:

    • It is necessary to separate in the system the product transferred for repair and the repaired one.

    • The disassembly and assembly processes are separated, and any of them can exist separately.

    A vivid example of such a scheme: they took two broken engines, dismantled them, assembled one from suitable spare parts, and disposed of unusable spare parts.

    Scheme “First, disassemble everything – then assemble everything

    For such a scheme, in the “Nomenclature” directory, we create two elements of the directory or two characteristics of one element. Each item will need its own specification: the first one is for disassembly and disposal, the second one is for assembly and manufacturing.

    The need for repair is fixed by the document “Order of the supplier” with the type “Manufacturing”.

    Based on the order from the supplier, we create two orders for production: with the type “Disassembly and disposal” for the received raw materials and “Manufacturing, assembly” – for the production of products by order.

    Production of work on the repair of the product

    The scheme is applicable if there is no need to keep material records of products accepted for repair and components received during disassembly.

    Scheme for the production of works

    For such a scheme, we create a specification for manufacturing, select an item with the “Work” type as the output product.

    The repair process in this case does not differ from the manufacturing process: to form a need, we create a “Customer Order”, based on it we form a “Production Order” with the “Manufacturing, assembly” type.

    We sell the released work to the client.

    Repair without components

    A hybrid of the scheme described in the main part of the article and the scheme for the production of work. Applicable if you need to account for a repaired product without material accounting for its components.

    Repair diagram without components

    We create a specification with the “Repair” type for the product. We do not fix a side output during the disassembly process, we represent the repair of components in the form of work performed in the process (we indicate the work on the “Materials and Works” tab). Do not forget that for each work there must be a resource specification for manufacturing.

    Repair without specification

    Work in manual mode. This option should be considered when there is no NSI for repairs or it is necessary to reflect the completion of repairs upon completion.

    We create a production order with the “Repair” type, leave the specification empty in the line of the item being repaired.