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− | ==Abstract==
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− | Construction sites has through the years been subjected to injuries, accidents and faults. Budgets and deadlines are not kept, because of inadequate planning, errors, and poorly executed work. To satisfy customers requirements and to emphasise the importance of security, construction firms are now dedicating increasingly amounts of resources to prevent this. Political and private initiatives have made quality control a separate field in construction. This article will look at how quality control is used, the benefits and values of it and which supporting activities are used.
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− | http://www.arbeidstilsynet.no/artikkel.html?tid=250636
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− | __TOC__
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− | ==Definition: Quality Control==
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− | Quality Control is often associated with Quality Assurance (QA) and Quality Management Systems (QMS). They all correlate and depend on each other all thought there are different definitions. The American Society of Quality have made the following definitions of the terms:<ref>[http://asq.org/learn-about-quality/quality-assurance-quality-control/overview/overview.html],''[[American Society of Quality]]''</ref>
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− | Quality Assurance is: ''“All the planned and systematic activities implemented within the quality system that can be demonstrated to provide confidence that a product or service will fulfil requirements for quality.”''
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− | Quality Control is: ''“The operational techniques and activities used to fulfil requirements for quality.”''
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− | Thus, the difference between them is mainly that the QA is everything involving the QC such as documentation, planning and the supporting activities around QC, while QC is the actual controlling part. Together QA and QC are parts of the QMS. The concept of Total Quality Control (TQC) emphazises the use of the tree to provide the best possible quality in every part of the company. <ref>Chris Hendrickson, (2000), Project Management for Construction Fundamental Concepts for Owners, Engineers, Architects and Builders, Department of Civil and Environmental Engineering, Carnegie Mellon University, Pittsburgh</ref>
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− | ==Background==
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− | Until the mid-20th century the conventional way to make sure products were up to standards was with post-production controls, where the defect products would be repaired or thrown away. After the second world war companies started to rethink the idea as factories and production became more efficient and the demand bigger. Toyota introduced the Toyota Production System which later influenced the Lean-philosophy. In the 50’s the Demin-circle was introduced by W. Edwards Deming and is considered the origin of the total quality management (TQM). In the end of the 60’s the term Quality management systems arises. This was the first time where they would look at the entire process of making a product, not just the production in itself. The management and the service provided to the customers would be taken into account just as the quality of the product. <ref>[http://asq.org/learn-about-quality/total-quality-management/overview/tqm-history.html], ''[[American Society of Quality]]'' </ref>
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− | ==Plan - Do - Chech - Act==
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− | [[File:PDCA-Lean.jpg|thumb|350px|''''Figure 1''': The PDCA circle <ref></ref>]]
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− | One of the most basic ideas of the QC and especially the TMC is the theory behind Plan - Do - Chech - Act (PDCA). It is based on the Deming Circle introduced by W. Edwards Deming in the 1950's. The concept has influenced the construction industry and many others since. PDCA is based on four parts, each shown in figure 1.
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− | '''- Plan:''' The first step of the PDCA is the planning part. At this lever the company will create an overview of the project and use the information they got in combination with previous experience they have acquired.
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− | '''- Do:''' This is the execution of the production or the construction. With on-going supervision of the quality process the results of the planning will be used to provide the best possible quality for the customer. Keeping timelimits, costs and safety regulations is just as important as the actual product delivered. At this point it is important for every part project team are alligned and keep improving on every level of the organization.
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− | '''- Check:'''
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− | '''- Act:'''
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− | The most crucial aspect of the PDCA is the continious evaluation of the performed work. Every time a process is done the company will have to chech the quality and document deviations. Necessary steps will be taken to meet required standards. The documentation will be used in future projects to provide a confidence that errors will not reappear.
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− | The practical use of the PDCA is many, but mostly it is the idea that has influence other teqnicues and tools, some of them will be discussed during this article.
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− | ==ISO 9001:2015==
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− | The concept of the QMS was originally based on assembly line productions, where there would be identical products produced repeatedly. Transferrin this into the construction industry, where the nature of each project would be totally different was a bigger challenge. One of the strongest initiatives to help this along was made by the International Organization for Standardization (ISO). They developed standards for implementing QC in the industry. The most commonly used is the ISO 9001:2015, which is also the only one amongst the ISO Standards which can be certified to. It is not required to certify, but there are more then one million companies wolrdwide with certification.<ref>[https://www.iso.org/iso-9001-quality-management.html], ''[[International Organization for Standards]]'', uploaded 21.09.17</ref>
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− | Acquiering an ISO 9001 certification has become a way to prove the company's credibility, and in some industries it is even legally mandated to optain one. The ISO 9001 standard uses several tools and ideas in their standards to provide their users with the following benefits:
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− | - Organize processes<br>
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− | - Improve the efficiency of processes<br>
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− | - Continually improve<br>
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− | ==Performing the Quality Control==
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− | What differs the modern QC from the traditional is the supporting activities alongside the project, but also before and after. Thus, many of the tools and methods are used prior to actual construction.
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− | In the initial phase of the project, planning is important to utilize the benefits of QC. Identifying the potential issues and making a strategy is one of the first steps in QC. There are different tools to use for the planning, e.g. Benchmarking, Flowcharting, Cost-to-benefit Analysis or Cause and Effect Diagrams. Using these brings predictability to the project, using preious knowledge overviews of the project and analycis of the project to plan the QC to be as efficient as possible, thus applying the concept of PDCA.<ref>[https://pm4id.org/chapter/10-4-planning-and-controlling-project-quality/], uploaded 26.09.17</ref>
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− | ===Quality plan===
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− | The following parts will end up in a Quality Plan(QP), specifying the use and which goals to achieve with the QC. As well as creating a guidance for the QC it will also create a verification for the customer who have to rely on the contractor to provide the required quality. The QP should integrate the overall goals and strategic plans in the organization to the individual project, to provide an ongoing progress. It concerns aspects from top organizational level to the lower levers where the actual QC on site is executed.<ref>http://asq.org/learn-about-quality/quality-plans/</ref>
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− | ===Cause and Effect Diagram===
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− | [[File:c2526e.jpg|thumb|350px|source:https://qualitycontrolarticles.wordpress.com/2011/09/19/cause-and-effect-diagrams/]]
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− | The Cause and Effect Diagram is also called The Fishbone Diagram or the Ishikawa Diagram. First the method addresses a problem. The intention is to find the causes and effects of the current problem. The processes affecting the problem are categorized and for each category the potential causes are listed. Visualized in figure 2, the typical setup for a Fishbone is shown. Usually the diagram is drawn on a whiteboard while the team members will discuss the situation and try to come up with a solution together.
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− | https://qualitycontrolarticles.wordpress.com/2011/09/19/cause-and-effect-diagrams/<br>
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− | https://www.smartdraw.com/cause-and-effect/<br>
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− | http://asq.org/learn-about-quality/cause-analysis-tools/overview/fishbone.html
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− | Basic Quality Control
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− | ===Check Sheets===
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− | One of the most common ways to perform QC is by Check Sheets also referred to as Checklists. They give directions about what to control and how to do it. Using the construction of a concrete wall as an example. Typically parameters can be e.g. placement, height, reinforcement, formworks etc. The sheets are created and adapted to each individual project. All controlled areas will be documented and stored for later auditing. The controls are directed towards areas where the companies know faults occur, often a result of the risk assessment prior to the project start. The Check Sheets is a combination of preventive and corrective QC. It is also considered one of the most basic and simple ways of QC, with only small amounts of planning required. On the other hand processing the information acquired from the Check Sheets requires a sufficient amount of work. Using the knowledge gained from the controls are important in future work.<ref>http://www.niskolen.no/pil/Medlem/Kurs/Dokumentasjonogkvalitet/data/downloads/10_dokumentasjon-og-kvalitetssikring.pdf, uploaded 16.09.17</ref> <ref>http://asq.org/learn-about-quality/data-collection-analysis-tools/overview/check-sheet.html</ref> <ref>https://www.intouch-quality.com/blog/quality-control-inspection-checklists-and-how-to-use-them</ref>
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− | ==References==
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− | <references/>
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