Temporary Works: Importance Of Management And Safety Innovations

Temporary works definition and examples

This paper aims at evaluating the various failures which different people tend to incur in in line with construction works. The aspect appraises all the temporary construction failures as well as the design elements embedded in these analogies.  Furthermore, the paper also explores all the avenues about the planned work, ensuring that there is the creation of awareness as well as essential knowledge regarding the temporary management of the construction works.  In essence, the concept also helps in ensuring there is work improvement in the management arrangements in line with the temporary works. This is important since it helps in increasing not only the competence levels but also helps in reducing the related accidents resulting from the various disasters. Most of the accidents mainly believed to results from the failures due to the overall temporary works (Martinovi? et al. 2018 p.40).

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First and foremost, temporary works mainly applied when dealing with engineered solutions in most of the construction industry. The term gains the momentum application in tackling all the support as well as the protection related norms in either the permanent works or the existing structures.  Some of the support related elements in line with the temporary jobs include plant and equipment, side-slopes as well as the vertical side’s excavation sustenance.

Furthermore, the codes relating and give the decisive temporary works mainly appraised in the BS5975:2008.  The system in most cases tends to provide the in-depth analogy on the application of the practices, various procedures as well as the allowable stress in line with the false-work design. The code often outlines the legal works or gives the various constructions which are attainable in line with the protection, provision access as well as support. Subsequently, the analysis also depicts all the related permanent works which are either static or moveable in line with the work completed.

Earthworks mainly entail all the works related to the stockpiles, unstable slopes, trenches as well as the excavations. Furthermore, there are structural formworks and related activities in line with the temporary works. The structural formworks examples include falsework, façade retention, propping, needling, and shoring, scaffolding, edge protection, site hoarding, temporary bridges, and signage as well as site fencing, cofferdams. Subsequently, the plant and equipment foundations examples in line with the temporary work provisions mainly outlined as well as appraised decisively. Some of the cases in front of the failures resulting and related to such actions include tower crane bases; anchors support as well as construction ties, elevators, and mast climbing work platforms. Moreover, the ground works which aims at providing the suitable locations is not only essential but also essential in line with the plant erection. Some of the key and paramount activities outlined in this area in line with the failures incorporate the piling ring and the mobile cranes (Sharpe, Hutchinson and House 2015).

Importance of temporary works management

The failures in line with the earthworks continue to embed various disadvantages in line with the temporary construction works in different companies and industries.  The impacts regarding the shortcomings from the overall operations of the earthworks can often be of immense effects on the structure. Some of the impact which often depicted include the collapsing and the cracking of the structure which not only endangers the human lives but also interferes with the aesthetic layout of the structure. For instance, the figure below illustrates the immense impacts of the earthworks as far as the road layout, and overall beauty is concerned.     

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                                  Figure showing the failures in line with the temporary Earthworks (Adam et al. 2018 p.122)

Furthermore, there are various failures in line with the temporary earthworks, and different parameters often cause these.  Some of the settings have adverse contribution while others have gradual impacts but at the end both the elements impact significantly to the failure of the structure. Thus, the different contributors, as well as the activities regarding the analogies, essentially demarcated as indicated in the figure below (Briggs, Loveridge and Glendinning 2017 p.107).


                     Figure Showing the Various Factors Contributing to the Earthworks Failures (Stankovic et al. 2015, May)

Additionally, climatic variations also have various impacts on the earthworks and depict immense failures in the structure. The graph below shows and illustrates how the climatic variations impacts in structures in line with earthworks failures.


                       Climatic Variations Impacts in Structures in line with Earthworks Failures (Buitrago et al. 2018.  p. 153)

There are different action plans for the earthworks, and some of the action plans incorporate  

Embankments: it is crucial to consider and appraise all the elements in line with the norm regarding the erections and the overall laying process to minimize the earthworks failures in line with the process.  

Soil cutting is not only essential but also fundamental. However, it is crucial to consider the acceptable levels as well as the gradients required in line the earthworks to minimize any elementary damages and failures.  

Rock cutting is also another fundamental element to consider when handling the excavation processes in line with the earthworks. Thus, it is important to appraise the rock composition as well as the predominantly rocks to ensure that various failures are minimized.  

There are various technologies often applied in the earthworks both for the design stage and in the actual construction. Some of the techniques mainly used include 3D machine control used often for fitting the units and for the overall alignments.  Also, the use of the design data as well as instrumentations for the whole computation and the analysis of the earthworks as well as for measuring the continuous progress of the demarcated machines hydraulic systems.


In summary, this paper discussed the evaluation and the appraisal on the earthworks in line with the temporary construction works in the building sites. From the study, it is established that the earthworks form part and parcel of the necessary works which one need to consider as far as the overall evaluation is concerned. Besides, it is evidential that earthworks in the recent days have been optimized with the popular technology and this aims at ensuring that the work efficiency mainly achieved.


Adam, J.M., Parisi, F., Sagaseta, J. and Lu, X., 2018. Research and practice on progressive collapse and robustness of building structures in the 21st century. Engineering Structures, 173, pp.122-149.

Briggs, K.M., Loveridge, F.A. and Glendinning, S., 2017. Failures in transport infrastructure embankments. Engineering Geology, 219, pp.107-117.

Buitrago, M., Moragues, J.J., Calderón, P.A. and Adam, J.M., 2018. Structural failures in cast-in-place reinforced concrete building structures under construction. In Handbook of Materials Failure Analysis (pp. 153-170).

Martinovi?, K., Gavin, K., Reale, C. and Mangan, C., 2018. Rainfall thresholds as a landslide indicator for engineered slopes on the Irish Rail network. Geomorphology, 306, pp.40-50.

Sharpe, P., Hutchinson, D. and House, G.S., 2015. Prediction of earthwork failures using track recording car data. In Railway Engineering Conference, Edinburgh.

Stankovic, L., Elafoudi, G., Tachtatzis, C., Andonovic, I., Cassels, G. and Fickling, A., 2015, May. Decision support system for proactive maintenance of earthworks assets. In World Water Congress XV.