Project Management Reflection on Total Quality Management in ME

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This paper is a reflection on Total Quality Management (TQM) within the context of mechanical engineering projects. It synthesizes lecture materials and literature to explore TQM as a comprehensive approach, encompassing tools, practices, and critical factors aimed at enhancing standards and meeting customer needs. The author emphasizes that TQM is an interconnected, organization-wide strategy, evolving from mere product inspection to a strategic competitive advantage. The reflection discusses the practical application of TQM principles, highlighting the importance of management commitment, employee empowerment, fact-based decision-making, and continuous improvement. The discussion covers the evolution of TQM, its customer-centric nature, and the various tools and principles involved, such as the seven basic tools of quality and lean principles. The paper concludes by emphasizing the benefits of TQM, including improved product quality, customer satisfaction, and financial gains. The author learned that achieving TQM requires integrating quality considerations from the project's inception and throughout its lifecycle. The paper also underscores the necessity of a strategic approach, considering both internal strengths and weaknesses, as well as external threats and opportunities, for successful implementation and long-term benefits.

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PROJECT MANAGEMENT REFLECTION ON TOTAL QUALITY
MANAGEMENT
NAME
DATE

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EXECUTIVE SUMMARY
This paper reflects on the concept of TQM in the context of theory and practice; the refection is
based on a review of lecture material and a systematic review of related literature. The author has
established the practical context of TQM as being a set of tools, practices, techniques, components
and critical factors that all serve to enhance standards to attain customer needs. TQM is not isolated,
nor does it have a fixed model, but is an interlinked process that is effective when it becomes an
organization-wide strategic concept. TQM has evolved over the years from a step in production
involving inspection to establish is products meet set standards for quality, to an organization wide
competitive strategy. The attainment of TQM requires management commitment, employee
empowerment, fact based decision making, and continuous improvement to attain its benefits that
includes quality mechanical engineering products, customer satisfaction, continuous improvement,
competitiveness, and financial benefits

INTRODUCTION
Mechanical engineering projects are usually complex, involving several steps, from planning,
design, execution, testing, and review; for instance, the design and building of a car constitutes
several stages aimed at ensuring the final output is functional and meets its performance objectives,
while also taking into account other aspects of quality, durability, safety, aesthetics, and cost.
Quality is a very important factor in mechanical engineering projects as it determines the safety of
the finished product upon which important aspects could depend, including quality of use and
human life, health, and safety. Total Quality Management (TQM) defines a an approach to
management for attaining long term success by meeting and exceeding the needs of customers. All
members of an organization, with regard to TQM, participate in activities that improve processes,
services, products, and culture where they work. TQM has 8 guiding principles that include total
customer focus, total involvement of employees, is process centered, is an integrated system, uses
systematic and strategies approaches, is based on continual improvement, decisions are made based
on facts, and there is effective communication. The processes in TQM provide paths that team
members and upper management can understand. Undertaking projects require the application of
such project management principles as TQM (Anand, Ward and Tatikonda, 2010); upon completion,
an even important concept is personal self reflection, especially given that practical experience is an
important aspect of learning in the modern context. In this paper, the author reflects upon the
concept of tQM in mechanical engineering projects n the context of class lessons and theoretical
content and their practical use in a mechanical engineering context. The reflections are discussed,
before conclusions are drawn.
DISCUSSION
Previously, I had an academic understanding of total quality management, for example, as being a
set of tools, practices, components, and factors that enhance the standards of a project and ensure
objectives are met within a restricted budget. The concept itself is interesting, its practical
application in a mechanical engineering project is novel: it enables one to further understand and
internalize the concepts. The success of projects depends as much on quality as the ability to
effectively manage project constraints; in fact, managing project constraints constitute the quality of
a project, along with meeting the set project objectives and goals (Ika, 2009). Quality in mechanical
engineering projects also pertain to both the tangible benefits, such as a well engineered product
that meets its functional requirements, as well as intangible benefits such as being delivered on
time, meeting set standards, and being within budget and scope. I had also imagined that TQM, like
some quality standards such as ISO, is unique model; however, undertaking the project and
practicing and implementing TQM principles (Karthi, Devadasan and Murugesh, 2011), I have
come to learn that there is no fixed TQM model for a good TQM program; rather, TQM is a

network of components that are interdependent and interrelated, including practices, critical factors,
tools, and techniques.
I have always believed that being competitive requires cost cutting measures, being first to market,
and enhancing efficiency. However, the concept of TQM especially in mechanical engineering has
given me a new and refreshing perspective which is also of equal importance, that planning
activities, strategy planning, and importantly, quality planning, are also of great significance in
project success (Cao and Hoffman, 2011). In retrospect, I think these important aspects of a project,
especially quality planning, is often overlooked especially in the highly competitive corporate world
where competition is cut throat. Further, I have come to the understanding that TQM is more of a
mindset first, before a set of tools, practices, and models used to attain TQM because changing the
mindset is among the most challenging aspects. Attaining TQM in mechanical engineering entails a
series of quality improvement systematic approaches that ultimately result in mechanical
engineering products with zero defects that also meet the needs of customers (Nallusamy, 2017). I
have come to learn that attaining TQM in mechanical engineering projects requires concepts of
quality to be incorporated in the project right from the planning and inception phases, and that
continuous improvements throughout the life cycle of the project and even beyond (when product is
delivered) will result in quality products. Achieving TQM requires effective leadership and
management principles; attaining TQM in engineering projects requires effective project
management (Kumar, Garg and Garg, 2011).
Undertaking the evaluation of TQM in mechanical engineering has also brought to the fore the fact
that TQM is a process that starts from the smallest teams within a project to the wider organization
and top management in an organization. In this context, TQM has various components that include
TQM in policy management, TQM in small action groups, TQM for cooperating enterprises, and
the concept of TQM as being functional and cross functional at the same time. TQM involves
various distinct phases as part of a large process of managing quality, including the inspection of
quality, controlling quality, assurance of quality, and TQM (Ahuja and Kumar, 2009). As such,
TQM should not be looked at as a distinct process but an interlinking of various steps, activities,
tools, and processes that all sum up to TQM (Dudek-Burlikowska, 2015). Achieving TQM requires
that various prescribed tools are used; including the use of the seven basic tools of quality namely;
check sheets, cause and effect diagrams, Pareto charts, Stratification charts, Scatter diagrams, and
Control charts (Neyestani, 2017). All the tools may not be applied at the same time; depending on
the nature of the project, various tools can be used, along with processes of quality control and
inspections to ensure quality in mechanical engineering projects involving manufacturing. In
construction projects, a different set of tools can be used as the two entail mechanical engineering,

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but in different contexts, hence the earlier assertion that TQM is not a fixed model but depends on
pother factors, including the nature of the project (Neyestani, 2017).
In mechanical engineering projects involving manufacturing (in the wider industrial engineering
field), TQM, according to Raut and Raut (2014), improving quality practices is a continuous
process of development. As such, a QMS (quality management system) needs to be put in place to
achieve TQM, of which QMS is gradually developed. The continuous improvement of processes in
management eventually leads to internal operations that are more efficient, resulting in grater
benefits to organizations, including financial and competitive benefits (Dahlgaard, 2016).
Evaluating various literature, I have come to the conjecture that TQM has been in existence for
many years, what has changed is its meaning, which has always evolved. In the early 20th century,
quality management entailed product inspections to ensure they met set specifications. During the
Second World War, quality management took on a statistical approach when techniques in statistical
sampling are used in evaluating quality, and some tools such as quality control charts were then
utilized in monitoring mechanical engineering production processes. In the 60s, quality
management was viewed as being an organization-wide concept and not just a practice in the
production/ mechanical engineering process (Chiarini, 2012). And this I believe is the true concept
of TQM; all functions within project teams or organizations are responsible for the attainment of
quality and so should be an organization wide concept.
Competition form other lower cost, higher quality producers led to a new concept of quality in
which quality took on a strategic meaning. My literature review has made it clear to me that TQM
as a strategic concept entails identifying the root causes of problems with quality and then pro-
actively correcting these at their source. As such, TQM must be implemented at the earliest
opportunity in mechanical engineering projects (Raut and Raut, 2014). Apart from TQM being an
organization wide concept, I have come to learn that TQM is customer driven; a mechanical
engineering product is considered a quality product when it meets the intangible and tangible needs
of the customer. To ensure quality in mechanical engineering projects, TQM must be embedded
within every aspects of an organization to achieve its objectives. I have come to the understanding
that TQM is concerned with both the technical aspects of quality, such as the seven principles, and
also involving people in quality, for instance company employees, customers, and suppliers as well
as contractors. For successful TQM implementation, focus must be placed on the processes of
measurements and controls as the primary means by which continuous improvements in quality are
achieved. To corroborate earlier assertions that TQM refers to interlinked disciples and approaches,
the attainment of continuous improvement requires the implementation and use of lean principles
such as Kanban and Kaizen (Goyal and Grover, 2012).

My reviews of past research and literature, as well as evaluation of class lessons have taught me that
TQM entails various principles, chief of which include the commitment of management to achieve
TQM. Management plays the role of quality planning and drives and directs the efforts aimed at
attaining TQM. The management also is important in creatively deploying resources, providing the
necessary support, and being themselves participants in the process of TQM. Management also
plays a critical role of reviewing, based on the tools used to check whether TQM in mechanical
engineering projects is being attained and then act to recognize areas where improvements are
needed, communicate these areas, and revise plans, techniques, processes, and workmanship so as
to attain the desired levels of quality (Raut and Raut, 2014). Further, TQM requires empowered
employees and workers; this is attained through effective training on quality, providing a platform
for which employees can make suggestions, measuring employee input and recognizing them for
effort, and creating excellence teams. Achieving TQM in mechanical engineering projects requires
project management approaches to decision making, which themselves must be based on facts. To
make decisions based on facts, tools and practices such as statistical process controls (SPC) attained
using the seven basic tools for quality, and team oriented problem solving as used by FORD are
useful in enabling decisions based on facts to be made (Raut and Raut, 2014).
TQM will be achieved in an organization by implementing continuous improvement practices and
activities; these include focus and systematic measurement of cost of non quality (CONQ), setting
up excellence teams, attainment, maintenance, and improving of standards, and engaging on cross
functional process management. Importantly, the attainment of TQM requires absolute customer
focus; this entails focus on, and systematic measurement of CONQ with respect to customer needs,
creation of excellence teams, attaining, managing, and improving TQM, and engaging in cross-
functional process management to improve quality. For mechanical engineering projects to
implement and achieve the benefits of TQM, there needs to be an environmental scan and
evaluation where an internal analysis is done to identify strengths an weaknesses, as well as an
external scan to identify threats and opportunities. Successful implementation of TQM has
numerous benefits, as gleaned from the authors’ systematic review of literature; it helps reduce
costs, achieve greater customer satisfaction, and therefore, customer loyalty, reduces defects and the
costs associated with reworks, and ensures the set goals and objectives are attained (Raut and Raut,
2014). However, attaining TQM faces various challenges; the leadership and management of issues
must be TQM aware and be competent enough; TQM requires inherent creativity and innovation
and project driven decentralized quality workforce with specialized quality teams. Effective us of
TQM will no doubt enhance the quality of mechanical engineering projects, enable continuous
improvement, result in greater financial benefits, and keep customers happy and satisfied. TQM

entails interlinked disciplines, including project planning, quality management, continuous
improvements, and using quality approaches such as the Deming 14 points of TQM
CONCLUSION
Competitiveness and strategic requirements such as greater financial benefits, increased efficiency,
and customer satisfaction have become ever more important in an increasingly competitive business
world. Using TQM can ensure these objectives are met; TQM is a long term approach to
management that is aimed at attaining long term success by meeting customer needs; this requires
all members within an organization to participate in improving services, products, and culture
within an organization. The attainment of TQM requires a strong emphasis to be placed on
continuous improvement and this is achieved through management commitment, employee
empowerment, fact based decision making, and continuous improvement.

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