Vacancy For Structural Engineer In Birmingham

Are you a Structural Engineer? Experience within Structural Engineering but ready to expand on your knowledge and skill set? Then this is the perfect job role for you. Our client is based within the Birmingham area so will be easily accessible from surrounding areas and also is a prestigious company who is excelling in various markets and create impressive CAD software.

Job Opportunity:

Candidate will have the opportunity to work with their popular software and be part of an innovative and professional team. This Structural Engineer will have the opportunity to put your practical design skills to use and be involved in the fantastic software that the company creates.

Skills required for this job:

A degree in Structural Engineering or equivalent

Must have experience of AutoCAD or CAD/CAE

An innovative mind and hands-on problem solving abilities

Good understanding of 2D and 3D

Ability to work from first principles with strong mathematical analysis.

So without any delay proceed further to appear in the interview. Interviews are being arranged very soon. Don't forget to browse the Ascent People website to find out more opportunities that will come handy for you.

Candidates from all ages and backgrounds will be considered for this role. Ascent People Ltd are acting as an employment agency for this role.

Location: Birmingham, West Midlands (County)

Salary Structure: £30000 per annum + Package

Company: Ascent People Ltd

Job Type: Permanent

Facilities: 25 days' holiday, pay reviews, flexible working hours, free parking and pension scheme

Contact: Megan Barrow

Reference: CWJobs/mseb

Job ID: 65669871

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Published By

Rajib Dey

www.constructioncost.co

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Some Essential Steps To Construct A Wafflemat Foundation

This is a 3d animated construction video based on a Wafflemat foundation. In this video, you will be familiar with six easy to follow steps for developing the foundation from clearing the pad to installing the separate Waffleboxes, to pouring the concrete and eliminating the form boards.

Wafflemat is one of the most recognized concrete foundation forming system useful for residential and light commercial space. This system is applicable for expansive soil as well as other soil types with superior slab hardness.

Wafflemat forms a pattern of deep voids on the underneath of concrete foundation slabs. Waffleboxes are used to develop the voids. Waffleboxes are created with reprocessed plastic. Concrete is poured over the Waffleboxes to construct the slab as well as a set of narrow beams in two directions among the Waffleboxes. The beams contain center-to-center dimensions that remain within 4’-2”. The beams directly provide support to the foundation on the soil. They produce a very inflexible foundation slab.

In order to develop a Wafflemat foundation, a clean and level pad is necessary, as the system sets directly on grade. No need of pre-soaking.

Note: Foundations which are formed with the Wafflemat system, should be designed with a licensed Civil or Structural engineer having good knowledge in the design of concrete foundations on expansive soil, through soil test data submitted by a licensed Geotechnical engineer.

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Published By

Rajib Dey

www.constructioncost.co

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Usefulness of Construction Geometry for Roof Framing

Michael Nauth presents an informative construction video on construction geometry with Pythagoras' Theorem and Similar Triangles and Trigonometry. The geometries can simplify the estimation of roof framing.

Construction Geometries are used to draw shapes, angles or lines precisely.

The construction phase will be completed successfully with proper knowledge of fundamental geometry. Points, lines, measurements and angles are frequently utilized to lay out the building by following the architect drawings.

These elementary geometry elements are utilized by the grading subcontractor to outline the land and assure accurate drainage from property.

The concert, framing and roofing subcontractor applies strings and plums to create the blueprint. The roofers apply pitch and angles to assure drainage of rainwater.

The structural engineers utilize geometry in their design with the intension of estimating the spacing of the columns and beams for detecting exact strength of the building.

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Published By

Rajib Dey

www.constructioncost.co

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Some Useful Guidelines for Concrete Slab Design in Visual Analysis 9.0

Jon Lovgren, the Engineer at Beaudette Consulting Engineers, Inc., has presented a useful construction video that shows how to create the design of a concrete slab with Visual Analysis 9.0, a powerful software for structural engineers. Learn the detailed design procedures toward both manual and auto-meshed plates, together with the definitions of the input parameters and general hazards and drawbacks of the procedure.

Visual Analysis is a construction program ideal for structural analysis and member design of standard beams, columns, frames, trusses and building models. With Visual Analysis the structural engineers can get key solutions for big or unusual structures effortlessly and rapidly.

This construction software is used to examine both lateral and gravity loads in a single model.

Visual Analysis simplify the process for developing models with sketching, DXF import, copy & paste, parametric formation of general components (frames, tanks, walls, bracing, floor systems, etc.), import from spreadsheet or other tools, and BIM. Blend materials in your models: steel, wood, concrete, cold-formed and aluminum.

To get more updates, visit this link

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Published By

Rajib Dey

www.constructioncost.co

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How to create design & analysis of a simple structure with Orion 18

This is a useful construction video that shows how to use Orion V18 software to create the design of a basic structure. Orion is a construction program as well as structural engineering software from CSC (currently acquired by Tekla) that can be used for developing efficient structural design. The software can design simple or complicated reinforced concrete buildings. It performs analysis and design concerning valid structural elements like beams, columns, slabs and walls. It can also work with complex structures like multi-storey buildings There also exist a series of international codes along with British Standards and Eurocodes.

Orion 18.0 supports both 32 and 64-bit operating system.

Given below some of the exclusive features of Orion 18.0 :-

• Beams now designed for torsion
• Latest polyline column editor
• Batch FE beam load decomposition
• Latest column centreline modelling in Building Analysis
• Superior automatic cantilever marking
• New column perimeter modelling in FE raft foundation analysis
• Consistent BIM integration with Autodesk® Revit® 2013 and Tekla Structures 2013
• Several new modeling features
• Superior finite element analysis
• Advanced member design and detailing
• Design and detailing of numerous foundation systems together wih pads, pile caps, strip footings, rafts and piled rafts containing eccentric piling arrangements.
• Facilitates the engineers to directly export drawing details into CAD
• Produce material-take offs in initial design phase

Link For Download

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Published By
Rajib Dey
www.constructioncost.co
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RCM ACI-Builder Is A Useful Construction Program For Structural Engineers

RCM ACI-Builder is the newest construction program for structural engineers. They can use this software to create the design of various types of reinforced concrete members in accordance with ACI318M-11 code.

By using this software the structural engineers can obtain comple detailed design output contain full cormulas and explanatory figures. This adaptable construction software can provide perfect guidance to the structural engineers to master ACI Code.

RCM ACI-Builder Design Software offers the following functionalities:-

A. Design of flexural members (Rectangular and T-Shape Sections):
A.1-Find out section characteristic under balance case, singly reinforced section & doubly reinforced section.
A.2-Work out area of steel on the basis of applied moment.
A.3-Compute moment as per allotted area of steel.
B. Design of Shear under following cases:
B.1- Members based on shear and flexure only.
B.2- Members based on shear and axial compression.
B.3- Members subject to shear and vital axial tension.
C. Design of combined shear and torsion under both cases of compatibility and equilibrium torsion.
D. Design of punching for prestressed and non-prestressed members containing all column geometry cases: interior, edge & corner columns.
E. Manage immediate and long term deflection for beams and slabs.
F. Design of corbels and brackets.
G. Manage flexural cracking in beams and one-way slabs.
H. Design of pile-caps with most general geometry cases: 2,3,4,5 & Strip-Pile Caps.
I. Design of isolated footings under eccentrically and concentrically case of loading

Image Courtesy : www.onlinecivil.net

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Published By

Rajib Dey

www.constructioncost.co

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How to design a singly reinforcement concrete beam with RCM

This construction video shows the functionalities of RCM, a handy software for designing singly reinforcement concrete beam.

RCM is an adaptable and widely recognized tool for the structural engineers to create the design of various types of reinforced concrete members based on ACI318M-11 Code and other ACI Standards like ACI350M-06, ACI244R-01, CRSI-2008 etc.

The RCM can be used for providing complete through design reports containing full formulas and exemplifying figures just close to manual calculation.

The complete detailed reports transform RCM design engine to an open book, so the engineer can smoothly certify and authorize them. RCM reports allow the engineers to learn ACI Code thoroughly.

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Published By

Rajib Dey

www.quantity-takeoff.com

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Structural Mechanics: Modelling and Analysis of Frames and Trusses – An exclusive e-book for structural engineers

Karl-Gunnar Olsson and Ola Dahlblom both published an exclusive e-book for structural engineers. This book is known as Structural Mechanics: Modelling and Analysis of Frames and Trusses. The book is available in kindle edition. The book is written in English language and contains 320 pages.

The book analyzes the basic concepts of structural mechanics as well as the modelling and analysis of frame and truss structures.

This construction book consists of the following features :-

Focuses on modelling and analysis concerning trusses and frames by applying a systematic matrix formulated displacement procedure with the language and suppleness of the finite element procedure.

 

• Element matrices are set up from analytical solutions to the differential equations.

• Offers a robust toolbox that contains elements and algorithms toward computational modelling and numerical examination of truss and frame structures.

• Narrates the concept of stiffness to be a intuitive tool for analyzing structural behaviour.

• There are several exercises and some of them are supported with the leading computer software CALFEM. In order to accelerate the objective of learning. CALFEM offers the user detailed information on the matrices and algorithms applied in a finite element analysis

Buy the book from amazon Structural Mechanics: Modelling and Analysis of Frames and Trusses

Image Courtesy: amazon.in

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Published By

Rajib Dey

www.constructioncost.co

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Design various types of reinforced concrete members with RCM ACI-Builder Software

RCM ACI-Builder Software is a simple tool for structural engineers to design several types of reinforced concrete members with adhering to ACI318M-11 code.

This useful structural engineering software can produce comprehensive design output report involving complete formulas and explanatory figures. This construction program can easily resolve practical issues associated with design. Besides, it can be applied for educational purpose as it facilitates the engineers to gather thorough knowledge on ACI code.

RCM ACI-Builder Software contains the following items:

A. Design of flexural members (Rectangular and T-Shape Sections):

A.1-Ascertain section characteristic under balance case, singly reinforced section & doubly reinforced section.

A.2-Estimate area of steel in accordance with applied moment.

A.3-Estimate moment as per alloted area of steel.

B. Design of Shear under following cases:

B.1- Members based on shear and flexure only.

B.2- Members based on shear and axial compression.

B.3- Members based on shear and significant axial tension.

C. Design of combined shear and torsion under both cases of compatibility and equilibrium torsion.

D. Design of punching for prestressed and non-prestressed members with all column geometry cases: interior, edge & corner columns.

E. Manage current and enduring deflection for beams and slabs.

F. Design of corbels and brackets.

Link for download Design various types of reinforced concrete members with RCM ACI-Builder Software

G. Deal with flexural cracking in beams and one-way slabs.

H. Design of pile-caps with most general geometry cases: 2,3,4,5 & Strip-Pile Caps.

I. Design of isolated footings under eccentrically and concentrically case of loading.'

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Published By

Rajib Dey

www.constructioncost.co

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How to design, model and analysis of Space Truss with SAP2000-19

This is an exclusive presentation for Civil Engineering students. By going through this construction video, one can learn how to create the design, modeling and analysis of Space Truss alias Triangular Arch Truss through SAP2000-19, an exclusive integrated, productive and practical structural program.

As defined by architecture and structural engineering field, a space frame or space structure refers to a truss-like, lightweight rigid structure built up with interwoven struts in a geometric shape. Space frames are applied to range vast areas by means of few interior supports.

Similar to truss, a space frame is endurable due to the constitutional hardness of the triangle. Adjustable loads (bending moments) are delivered as tension and compression loads along the length of each strut.

In a space truss or space frame structure, there exists a three-dimensional truss to combat with lateral forces. In a normal truss, horizontal, vertical, and diagonal members function on a single plane whereas a space truss applies diagonal connections which seperate outside of the plane.


A space truss generally appears as various interlocking pyramidal outlines. A tetrahedron shape belongs to the elementary space truss, containing six members which converge at four joints.


Structural Analysis: Space Truss - Download in PDF

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Published By

Rajib Dey

www.constructioncost.co

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Structural Engineering for Architects – An unique handbook for structural engineers & newbie architects

William McLean, Pete Silver (teacher at the School of Architecture and the Built Environment at the University of Westminster) and Peter Evans (Technical Director at the London office of consulting engineers MLM) have written an exclusive ebook that can streamline structural design and analysis processes for Structural Engineers. The book contains 208 with over 436 illustrations.

This book will help the structural engineering professionals to sharpen their knowledge concerning basic thories and practices useful for constructing architectural structures. The book will also provide guidance to the structural engineers to resolve any technical and design issue efficiently.

This construction book is segregated in four parts - 'Structures in nature' looks at structural principles found in natural objects. 'Theory' highlights general structural theory and narrates the primary forces in engineering. 'Structural prototypes' contain instances of model creation and load testing executable by the students. The fourth section, 'Case studies', provides a different range of illustrations which come from all through the globe – original buildings that follow the theories and testing explained in earlier sections.

All the informations in the book are supported with particularly sketched diagrams, models, CAD visualizations, construction details and snapshots of finished buildings.

Topics covered :- Introduction

• Structures in nature
• General theory of structures
• Structural systems
• Structural prototypes
• Case studies
• Further reading
• Index
• Picture credits and acknowledgements

Link for download     


 


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Published By
Rajib Dey 
www.quantity-takeoff.com
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Brief overview of Seismic designs for masonry building

The National Building Code of Canada 2005 (NBCC 2005) and the CSA S304.1-04 masonry design standard are two useful construction documents which facilitate the structural engineers to create design for masonry buildings toward seismic load effects.

This article offers a explanation on the elementary theoretical background and theory for the CSA S304.1-04 seismic design provisions. Modifications in the seismic design provisions are described in Part 4 of the NBCC 2005 and CSA S304.1-04, as well as how these affect the masonry design and construction.

This document provides a detailed up-to-date guide on seismic design and building of masonry structural elements for low to mid-rise structures, like warehouses, industrial buildings, schools, commercial buildings, and residential/hotel structures. This construction article mainly focuses on how to apply concrete block units for designing and construction of masonry structures.

Learn the use of seismic design provisions and cross-referencing of code clauses for designers. The addendums consist of some helpful documentations like design processes and research background toward some of the design provisions. The applicable code clauses are provided through framed boxes wherever required.

Chapter 1 offers the assessment of the general seismic design provisions described in Part 4 of NBCC 2005, together with seismic hazard levels, and the relevent static force processes. One can learn the primary design parameters which range from irregularities, torsion, height limitations, and the ductility and overstrength features for masonry structures. Besides, there is an explanation to the dynamic analysis of structures to simplify the suitable code provisions. As lots of updates are made to the seismic provisions in NBCC 2005, relevancies with the earlier 1995 edition of the building code are also provided in Appendix A.

Chapter 2 contains an explanation of seismic design needs for reinforced masonry walls. Applicable CSA S304.1-04 design needs are provided together with concerned commentary having brief interpretation concerning code provisions. Here topics covered reinforced masonry shear walls based on in-plane and out-of-plane seismic loads, as well as a eloborate explanation of the CSA S304.1 seismic design needs. Some exclusive topics like masonry infill walls, stack pattern walls, masonry veneers, and construction-related issues are also covered. Amendments in CSA S304.1-04 seismic design needs from the earlier (1994) edition are explained and discussed,together with their design suggestions. Appendix B includes topics associated with the Chapter 2 content which range from findings of research studies and foreign code provisions concerning seismic design of masonry structures.

Chapter 3 sum ups differentiations in seismic design provisions explained in the 1995 and 2005 editions of NBCC, and the 1994 and 2004 editions of CSA S304.1. Designers having ideas on the brief seismic and masonry design problems naratted in Chapters 1 and 2, can shift directly to this summary chapter. The differentiations in code provisions are explained in a tabular format. This chapter also synopsizes the viii results of a case study concerning a typical warehouse building designed following NBCC 1995 and NBCC 2005. This construction artilce also focus on three Canadian locationsdefined by various seismic hazards (Vancouver, Calgary, and Toronto).

Chapter 4 offers explanatory design instances of seismic load estimates and allocation of forces to members as per NBCC 2005, and the design of loadbearing and nonloadbearing masonry elements to CSA S304.1-04. The outline of masonry buildings and the mechanical characteristics of their components in the examples are provided to cope up with the circumstances often faced in design practice, specifically when these associated with the torsionally unsymmetric buildings. These explanations set out in a progressive manner, involving adequate examples and proper demonstrations required to modify the design process. Appendix C offers related background information toward the design examples, along with an comprehensive discussion of in-plane wall stiffness. Appendix D offers design assistances applied in the Chapter 4 examples.

Seismic Design Guide for Masonry Buildings download

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Published By

Rajib Dey

www.quantity-takeoff.com

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How to create footing design through ROBOT Millennium, the powerful Robot structural design software

The following construction video shows how to apply Robot Millennium, a powerful Robot Structural Professional Analysis and Design software for computing the footing.

Several structural engineers from all through the globe use ROBOT Millennium for its consistency as well as user-friendliness.

The software provides comprehensive structural analysis solution that involves frame analysis, FEM plates, shells and solid elements, as well as code checks, dynamic analysis, cables and both geometric and nonlinear analysis and various other superior features.

The simple GUI facilitates the user to resolve complicated structures instantly and precisely.

Watch the following online demonstration.

Download Robot Structural Analysis Free Trial

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Published By

Rajib Dey

www.quantity-takeoff.com

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Kimley-Horn, Fortune Magazine’s 100 Best Companies to Work For, is looking for a licensed Structural/Civil (Bridge) Engineer

Kimley-Horn, the leading design consulting firm which is positioned as one of Fortune Magazine’s “100 Best Companies to Work For, is seeking a licensed Structural/Civil (Bridge) Engineer on full time basis. The location of the job will be Dallas, Texas. The deserving candidate has to set up bridge/structural civil design plans for public clients and join company’s structures practice in Dallas, Texas.

Qualifications & Eligibilities:

• At least 5 years of working experience (preferably from consultant background).

• Should contain a BS (MS preferred) from an ABET authorized university in the Civil Engineering stream;

• Should have sound communication, leadership and technical expertises essential to direct a team of structural engineers in production;

• Should contain a Bachelor's Degree;

• Should be well versed with the development of plans, specification and estimations for new design of and/or preservations and reconstruction of highway bridges along with a focusing on design calculations and plan production;

• Should acquire a Professional Engineer license in Texas;

• Must have experience in applying various software programs for general structural analysis, grid-analysis of curved steel girders, prestressed concrete beam designs and pier designs;

• Should be registered as P.E. - Professional Engineer.

The company is also providing opportunities for individuals with disabilities and protected veterans.

Apply On-line

Image Courtesy: jalopnik.com

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Published By

Rajib Dey

www.bimoutsourcing.com

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Make your construction foundation system better with Insuslab SFRC (Steel Fibre Reinforced Concrete)

Insulslab is a useful constructionmethod which is formed on the basis of a cast in-situ foundation system involving a wide array of interlocking expanded polystyrene (EPS) pods. Insulslab is applied to produce a considerably solid ‘waffle’ foundation system/slab. Steel fibre reinforcedconcrete (SFRC) is flowed over the top of the Insulslab system for making the finished foundation.

Insulslab consists of a patented and accredited interlocking extended polystyrene pod system and Insulslab, adheres to the technical guidelines of the insulationstructural element, as defined inside the BBA Certificate.

Insuslab SFRC (Steel Fibre Reinforced Concrete) is treated as the superior quality foundation system that can be utilized with diversified soil types.

As compared to diversified conventional methods of foundation production, Insulslab SFRC provides outstanding thermal performance & considerable cost savings as it can be set up quickly and easily.

Insuslab SFRC offers the following advantages to the constructional professionals:-

• High quality impact strength
• Edge protection to the fullest extent
• Superior fatigue endurance
• Advanced level of shrinkage and fracture control
• Superior bearing capability
• Steel fibres are not harmful for power floats or concrete pumps

Watch the following construction video to get a live demo.

For more information, visit www.insulslab.com

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Published By

Rajib Dey

www.quantity-takeoff.com

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Build a concrete slab footing of modern buildings

A concrete slab is a common structural element of modern buildings. Horizontal slabs of steel reinforced concrete, typically between 100 and 500 millimeters thick, are most often used to construct floors and ceilings, while thinner slabs are also used for exterior paving.

In many domestic and industrial buildings a thick concrete slab, supported on foundations or directly on the subsoil, is used to construct the ground floor of a building. In high rise buildings and skyscrapers, thinner, pre-cast concrete slabs are slung between the steel frames to form the floors and ceilings on each level.

On the technical drawings, reinforced concrete slabs are often abbreviated to "r.c.slab" or simply "r.c.".

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Published By

Rajib Dey

www.quantity-takeoff.com

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Structural Estimation Sheet

This construction estimating spreadsheet is very useful for structural engineer to get familiar with the deflection attributes of a structural beam in a particular loading condition.

This template facilitates the structural engineers to be well versed with stress and deflection calculations required for structural beam bending through end overhanging supports and a single load.

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Published By

Rajib Dey

www.quantity-takeoff.com

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