Civil Engineering Materials and Geology
In a nutshell
From bridges and buildings to utilities and transport, civil engineering is part of everyday life. With the demand qualified engineers increasing, our industry-recognised civil engineering degree will open far-reaching career opportunities.
The course is accredited by the Joint Board of Moderators (Institution of Structural Engineers, Institution of Civil Engineers, Chartered Institution of Highways and Transportation and the Institute of Highway Engineers) as fully satisfying the educational base for an Incorporated Engineer (IEng) or partially satisfying the educational base for a Chartered Engineer (CEng). A programme of accredited further learning can fulfil the educational base for CEng status.
Led by our IStructE award-winning civil engineering team, with strong links with industry, this level course will equip you with advanced skills to work closely with architects and turn their concepts and drawings into real-life.
This course is also available with an integrated masters route.
- Develop professional knowledge, design and analytical skills towards Chartered Engineer status
- Learn about the social, legal and environmental issues associated with senior engineering roles
- Explore specialist modules such as geotechnical engineering, building envelopes and infrastructure design at an advanced level
- Complete experiments and project work in specialised engineering laboratories
- Increase your knowledge and boost your interpersonal skills by including a placement year
This is for you if...
You're fascinated by structures and architecture, and want a future career in this field
You're a creative problem-solver and enjoy using technology to find solutions
You studied mathematics or physics at school/college and you want a degree with accredited professional status
All about the course
Blending civil engineering competencies with architectural essentials, this focused course promotes hands-on learning to help you to develop the theoretical knowledge and skills you’ll need in your career.
In year one, you will study the principles of engineering, mathematics, surveying, materials and geology. During year two, you’ll progress to structures, soil mechanics, building services and construction management. You’ll also work on some live industry case studies.
In year three, you will begin your individual project plus modules in geotechnical engineering, building envelope and structural form and the built environment. In your final year, you will complete your final project, plus study modules in seismic engineering and bridge engineering.
If you are studying full-time, you'll have the option to take an industrial placement year between years two and three. Although you will be responsible for securing your own placement, we will assign you a placement tutor to monitor your progress and assess your final placement report. By competing a placement year, you can add 'with professional experience' to your degree award.
Civil engineering employs the use of a wide range of materials, in this module you will develop your understanding of those materials and study their fundamental behaviour. Subjects include construction materials, geology, soil mechanics and laboratory testing.
Civil Engineering Construction
There are a broad spectrum of elements involved with civil engineering construction. This module will develop your understanding of those elements from tunnels to contract law. Subjects include site safety, demolition works, sustainability, resource efficiency, consulting engineers and contractors, client's requirement and financial planning and control.
Civil Engineering Surveying
You will develop your understanding and ability to undertake a range of civil engineering surveying tasks, such as setting out, land surveying and quantity surveying. The main subject areas are land surveying techniques, setting out techniques, modern surveying techniques and quantity surveying. You will cover subjects and learn techniques such as setting up a level, theodolite and total station, construction lasers, GPS, EDM, co-ordinates, bearings and contract pricing.
Civil Engineering Communication
As a successful civil engineer it is important to have a wide range of well developed communications skills allowing you to communicate effectively not only with other engineers but also clients, contractors and labourers. This module will develop your drawing, written reports, presentations and specification writing.
Civil Engineering Mathematics 1
An understanding and ability to use mathematics are essential skills for success in engineering. This module will review and expand on the following subjects: algebra, trigonometry, functions, geometry, vectors, complex numbers and calculus, with emphasis on their applications to engineering.
You will develop an ability to analyses statically determinate structures and design simple structural steel work elements in this module. The module content is split into analysis and design. Analysis includes the subjects rigid body statics, material properties and Euler theory. Design subjects include design of structural steelwork elements in simple construction, and fire and corrosion protection systems for structural steelwork.
Soil Mechanics E2
All structures are dependent on the ground they're built on, in this module you will be introduced to the principles of soil mechanics including the general behaviour of different soil types under loading and unloading conditions and how this behaviour may be predicted. Subjects include geotechnical investigation, soil strength and transient groundwater flow.
Design and Construction Management
Project planning and execution are a vital part of the role of a civil engineer. In this module you practice these skills, culminating in a residential field course which will see you working in a team to construct structures from bridges to oil rigs.
Civil Engineering Mathematics 2
This module will build on the engineering mathematics module in year one and develop more advanced knowledge and skills in mathematical analysis, to enable you to tackle more advanced engineering problems. Subjects covered include partial differentiation, determinants and matrices, vector analysis, Laplace transforms and functions of a complex variable.
This module builds on your knowledge from year one and will develop your ability to analyse statically indeterminate structures and design simple reinforced concrete and masonry, structural elements. Subjects include stability of struts and frames, virtual work for statically indeterminate frameworks, detailing of reinforced concrete connections and bar bending schedules and design of freestanding masonry walls and panels.
This module will allow you to develop knowledge and understanding of modern architecture in the context of building and civil engineering. Subjects will include natural and man-made forms, prominent building designers and their creations by case study analysis, building construction drawing, and analysis and synthesis of client requirements.
Through this module you will develop knowledge and understanding of the interactions between a building and its internal and external environments. You will develop an awareness of the physical and personal requirements for thermal and environmental comfort. It will provide you with a fundamental understanding of the principles involved in building heat transfer, illumination and acoustics. You will explore the need for services within the building envelope and develop an understanding of typical building services systems technology. You will also develop knowledge and understanding of the wide spectrum of H.V.A.C. Engineering Services available for installation in today’s buildings. You will develop an ability to appraise and critically analyse the choices available to the engineer when selecting systems to meet a services specification. You will also investigate how changes in building design affect the interrelationship between it and its engineering services.
One of the most important parts of your preparation for your future career, whether in industry or research, is the undertaking of an individual project. Projects are based on particular civil engineering themes of industrial relevance.
Geotechnical Engineering E3
You will learn to develop approaches to the design and analysis of soil slopes and foundations. The subjects include stability of embankments, stability of earth dams, stability of shallow foundations on fine and coarse grained soils, design based on in situ tests and stability of deep foundations in fine and coarse grained soils.
Finite Element Analysis with Seismic Engineering
This module will introduce stiffness and finite element analysis as applied to civil engineering structures, and the fundamentals of seismic analysis and the effects of earthquake activity on the design of ground slopes, earth dams, foundations and structures.
Building Envelope and Structural Form
There are a variety of building envelop types including masonry and precast concrete with windows, curtain walling and glazing systems. In this module you will develop ability in the design and construction of building envelopes used in modern building architecture, and understanding of advanced structural forms. Subjects include environmental factors and their effect upon system selection, types of advanced structural form and production of scale models.
This module will develop your understanding of aspects of the built environment, sustainability and urban design related to building and civil engineering works. Subjects include energy generation and supply, building acoustics, principles of fire engineering, planning and design of urban environments, environmental impact assessment, and zero carbon design in the urban context.
You will further develop your ability to analyse statically indeterminate structures and design complex structures. Subjects include moment distribution with sway, plastic section properties, Hillerborg strip methods, design of reinforced and prestressed concrete and design of steel portal frames and moment connections.
Please note that it may not be possible to deliver the full list of options every year as this will depend on factors such as how many students choose a particular option. Exact modules may also vary in order to keep content current. When accepting your offer of a place to study on this programme, you should be aware that not all optional modules will be running each year. Your tutor will be able to advise you as to the available options on or before the start of the programme. Whilst the University tries to ensure that you are able to undertake your preferred options, it cannot guarantee this.
What Will I be Doing?
You will develop your knowledge and skills through a blend of theoretical, collaborative and practical methods:
- Lab activities
You will be assessed through a combination of formats:
- Lab exercises
School of Science, Engineering and Environment
The School of Science, Engineering and Environment aims to transform the quality of life for society and the wellbeing of future generations through a better and more sustainable future. Our research expertise includes the built environment, cancer, data security, dementia, marine conservation, robotics, and sustainability.
We place our students at the heart of everything we do. With over 200 dedicated academic, technical and administrative members of staff we offer a robust support system for our student community. Our expanding suite of multidisciplinary programmes cover acoustics, architecture, biology, biomedicine, chemical sciences, computing, construction, engineering, environment (built and natural), geography, mathematics, physics, property, robotics, surveying and wildlife.
If you're looking for a vibrant, welcoming and highly professional environment in which you can realise your potential, the School of Science, Engineering and Environment at the University of Salford offers you a world of opportunities.
- Heavy Structures laboratory
- Light Structures laboratory
- Soil Mechanics laboratory
- Hydraulics laboratory
- Water Quality laboratory
What about after uni?
As this undergraduate course meets the exemplifying academic benchmark for Chartered Engineer status requirement, you can enhance your career prospects through professional registration and institution memberships.
A civil engineering degree with Salford provides a fast-track entry to careers in a wide range of engineering roles. You may choose to focus your career in product design, manufacturing, or even operations.
Many opportunities exist in automotives, aerospace, petrochemicals, transport and information technology, as well as organisations such as the armed forces. Graduates may choose to seek employment in an architect's practice, or civil engineering or construction companies.
Industry placements can form a key part of your studies and provide a structured link between study and exposure to professional practice, and allow you to enhance your development in an industrial setting.
The course team has a wide range of long-standing and professional relationships with industry. External validation recognises that the course meets both UK and international standards required by the engineering profession.
Professional registration and Institution membership will enhance your career in the following ways:
- Access to continuous professional development
- Careers advice
- Increased earning potential
- International recognition of your qualifications, skills and experience
- Evidence of your motivation, drive and commitment to the profession
- Networking opportunities
What you need to know
ENGLISH LANGUAGE REQUIREMENTS
International applicants must show proficiency in English. An IELTS score of 6.0, with no band below 5.5, is proof of this.
English Language and Mathematics at grade C/level 4 or above (or equivalent). You must fulfil our GCSE entry requirements as well as one of the requirements listed below.
UCAS tariff points
104-112 UCAS points to include the study of mathematics and a numerate science.
104-112 UCAS points, to include a grade C in Mathematics a numerate science. A pass in the practical element of science A-Levels must be achieved.
BTEC National Diploma
DMM in Engineering must include Distinctions in Mathematics modules.
Access to HE
Contact Admissions for further information.
104-112 UCAS points to include Mathematics and Physics or Design Technology, grade C for Advanced Higher level or grade A at Higher level.
Irish Leaving Certificate
104-112 UCAS points to include A2 in Higher Level Mathematics and Physics.
Pass in Diploma of at least 60% from Science or Engineering.
30 points to include grade 5 in Higher Level Mathematics and Physics.
Salford Alternative Entry Scheme (SAES)
We positively welcome applications from students who may not meet the stated entry criteria but who can demonstrate their ability to successfully pursue a programme of study in higher education. Students who do not have formal entry qualifications are required to sit a written assessment to measure their suitability. Please contact Admissions for further information.
|Type of study||Year||Fees|
|Full-time home/EU||2019/20||£9,250per year|
|Full-time international||2019/20||£14,820per year|
|Part-time||2019/20||Part-time Your annual fee will be calculated pro rata to the full-time fee according to the number of credits you are studying.|
You should consider further costs which may include books, stationery, printing, binding and general subsistence on trips and visits.
Thanks to the generosity of the Mason Family, applicants for this course can qualify to apply for one of five Gerry Mason Engineering Scholarships. Each scholarship is worth a total of £9,000, paid as two cash award instalments of £1,500 each per annum for a maximum of three years.
The scholarships aim to ensure that talented students starting their first year are not deterred from studying at the University of Salford for financial reasons. Qualifying students will be encouraged to apply following registration and enrolment in September 2019. More information about the scholarship.
All set? Let's apply
Course ID HK2C