StudentShare
Contact Us
Sign In / Sign Up for FREE
Search
Go to advanced search...

Material Failure and Embodied Energy - Essay Example

Cite this document
Summary
The science of materials and metallurgy has taken a great importance since the day man decided to build. Sending a rocket to the moon was the high point of mans quest as he not only conquered earthly conditions but also those which were unknown to it…
Download full paper File format: .doc, available for editing
GRAB THE BEST PAPER91.7% of users find it useful
Material Failure and Embodied Energy
Read Text Preview

Extract of sample "Material Failure and Embodied Energy"

Download file to see previous pages

TASK 1 The bending of an umbrella when wind blows or the breaking of a bags handle, even the collapsing of mega structures like bridges and buildings are some prime examples of structural failure. Structure failure in basic terms can be defined as the destruction or damage of a structure when it is unable to support its designated load any further. Once the structure looses it ability to carry load, it deforms, de-shapes or even destroys completely. There are many reasons a structure can fail its basic ability to hold load (NEL, 2007) Many reasons as states in previously include basic design flaws, construction flaws, overloading, foundation failure, corrosion and excessive use of a moving body.

The corrective/preventive measures that have to be taken are in accordance with the structural failure that has either prevailed or in the process of it. An example of it is the leaning tower of Pisa; the design flaw is the soft earth due to which one part of the building is sinking inside. To negate the leaning effect, large weights and wires have been attached to the tower to keep it from falling to the end it is leaning to. The first part of the report will identify structural failures in my daily routine as an insurance engineer for a local school, where metallurgy plays an important role while covering any damage or even while insuring it.

Example No 1: Fan Falling The first and foremost structural failure that was faced by the school administration was the falling of a ceiling fan in a classroom. Luckily the recess was in progress and the fall resulted in no injury to any person. The only damage was to the fan itself and the table which it had fallen on. As a sue action was threatened by the parents of children studying in the school, our firm was called in to analyze the failure, state the cause of it and remedy actions. On inspecting the fan closely it was found that there was huge amount of rust in the loop where the fan was hanging.

The loop had been disconnected due to this corrosion. Fan rotation causes certain vibration in the whole structure making it a viable threat if any sort of corrosion is present. This problem could have been detected easily but due to the upper portion of the fan concealed inside the fancy fall ceiling, this problem was not detected. After this incident, all the fans in the school were checked and it was a shocking fact that most of the fans had this similar problem. Therefore a complete overhauling of the fan holding loops was recommended for stopping any such future incident.

Also as the fall ceilings cannot be removed therefore a calendar inspection plan has been laid out by the insurance team to be done by the school administration. This inspection would also be checked by the insurance team as to ensure proper working of the school administration team. Also to add further security in the system, all hanging items like fans and ceiling lights and chandeliers will be checked for heir secure housing, where they are attached to the wall. Example No 2: Swing structure failure The second structure failure that was noticed in the same school was the falling off a children slide to one side while the children were on it taking turns for sliding down.

Some children were hurt and minor bruises were seen on children bodies. This incident

...Download file to see next pages Read More
Cite this document
  • APA
  • MLA
  • CHICAGO
(“Material Failure and Embodied Energy Essay Example | Topics and Well Written Essays - 2250 words”, n.d.)
Material Failure and Embodied Energy Essay Example | Topics and Well Written Essays - 2250 words. Retrieved from https://studentshare.org/engineering-and-construction/1446468-material-failure-and-embodied-energy
(Material Failure and Embodied Energy Essay Example | Topics and Well Written Essays - 2250 Words)
Material Failure and Embodied Energy Essay Example | Topics and Well Written Essays - 2250 Words. https://studentshare.org/engineering-and-construction/1446468-material-failure-and-embodied-energy.
“Material Failure and Embodied Energy Essay Example | Topics and Well Written Essays - 2250 Words”, n.d. https://studentshare.org/engineering-and-construction/1446468-material-failure-and-embodied-energy.
  • Cited: 0 times

CHECK THESE SAMPLES OF Material Failure and Embodied Energy

Building Performance

They are now aware of the loss of the property, the materials wasted, embodied, energy, and the greenhouse generation.... This is capable of reducing the construction costs as the recycled material can be used in other constructions.... hellip; If the builder is big enough and is having own recycling process unit, he can use the recycled material in other constructions and can save investment on the constructions, which again reduces the construction costs....
18 Pages (4500 words) Assignment

Characteristics of Materials in Construction

It covers from the acquisition of raw materials, product delivery including their manufacture into a useable product, transportation at each stage,… embodied energy is categorised into initial and recurring. The initial embodied energy are those non-renewable energy consumed in the acquisition of raw materials, their This has two components namely: direct and indirect.... Different materials have different embodied energy.... Some embodied energy of common materials are presented in the table below....
8 Pages (2000 words) Essay

Making a truss adaptive to specific loading condition to save materials

Nowadays in the world of structural engineering and architecture, structural control system has become an area of research for controlling of motion and vibration in structures through some external energy which has effects on human comfort.... In a passive structural control, the structures have been built from a thermal stable composite material.... There are different material systems designed as smart materials and currently available in a wide range such including ceramics, polymers and alloys (W Sobek and P Tueffel, 2013)....
12 Pages (3000 words) Essay

Sustainable Design of a Sports-Centre Complex

nbsp; The building would be demolished and the waste material would be recycled for use in the construction of the new building, and its access roads and pavements.... Other materials used include steel/aluminium, fabric, plastic, and packaging material (US EPA, 2004)....
12 Pages (3000 words) Case Study

Engineering Report

This work called "Engineering Report" describes the development of the site plan, construction process, interior finishing, permitting, and work schedule.... In the report, there is a development of the cost and time schedule.... The author outlines all floors of the building, elevations, site investigations, rear elevations, and the general geology of the area....
19 Pages (4750 words) Report

CES: Manufacturing Process Selection

The "CES: Manufacturing Process Selection" paper states that the plotting of the embodied energies for the polymers demonstrates the fact that the initial two materials in the list have low embodied Energies than the rest of the polymers and elastomer.... nbsp; The set contained hard material such as aluminum, copper, iron alloys, steel alloys and wrought iron.... In terms of economics, Aluminum is more affordable among the material....
14 Pages (3500 words) Coursework

Wind Power Generation

The Carbon emission savings are mainly calculated from the emission factor, based on each type of fuel in use for the power generation; hence saving is achieved via the production of energy with the help of wind.... An annual emission saving is estimated via the multiplication of the total output of annual energy by an emission factor used in counterfactual cases; for example the coal-fired electricity generation.... he LCA or Eco balance or the cradle-to-grave analysis technique are utilized in assessing the environmental impacts entailing all stages of wind power generation product's life, that is, from their cradle to grave; the LCA assists in reducing shallow analysis on the environmental concerns via the interpretation of results toward assistance in making an informed decision; compiling inventories of relevant material or energy inputs and their respective environmental releases; and evaluation of potential impacts in relation to identified releases and inputs (Seri and Klasen, 2015)....
25 Pages (6250 words) Essay

Methods of Analysis of a Building Design

The first step is to determine the number of construction materials needs in order to determine the embodied energy of the total structure.... From these calculations an energy-time diagram is formed which indicates the long-term energy behavior of the residences, starting from their embodied energy.... embodied energy is the energy consumed by all the processes associated with the production of a building i.... In order to evaluate these aspects keenly, we have to consider the energy consumed during construction and operations of the building, as well as its toxic behavior and pollutants that appear in various stages of its life cycle....
9 Pages (2250 words) Term Paper
sponsored ads
We use cookies to create the best experience for you. Keep on browsing if you are OK with that, or find out how to manage cookies.
Contact Us