Highway bridges are very important structures in modern transportation net, so a great concern should be taken regarding bridges safety and serviceability. In the USA for example, only following the collapse of the silver bridge over Ohio River in 1967 which killed 47 people, comprehensive inspection programs for bridges had been established [1] . Bridges inspection is a very important factor for a rating of bridges. Several researches were conducted to find economical and effective maintenance and rehabilitation programs. Reference [2] developed a new method that has proven particularly suited for strengthening and stiffening reinforced and pre-stressed concrete bridge girders. It makes use of externally bonded carbon fiber reinforced polymer (CFRP) laminates characterized by lightweight, high strength and stiffness, resistance to corrosion, and good fatigue characteristics. Reference [3] developed a repair manual for Concrete Bridges. This study did not constitute a design standard, but suggestions to the decision maker. Reference [4] inspected Jilin highway concrete bridge in China. The results of the investigation showed that some concrete beams suffered from serious damages. Jacketing method, grouting repair method, replacement of expansion joints, and drainage system were the main proposed methods of rehabilitation. Reference [5] performed a detailed evaluation on 12 five-girder T-beam bridges in the southwestern US. They concluded that several factors were causing a failure mechanism, including a limited recognition in the original design standard of cyclic loading, high volume of heavy truck traffic, and transverse moments caused by unbalanced wheel loading. After the investigation, recommendations were made to rehabilitate these Bridges. Reference [6] presented the results of Non-Destructive Techniques (NDT) on the Pentagon Road Bridge, in Chatham, Kent, England. The results were used to identify the portion of the bridge which had undergone the greatest amount of deterioration. Reference [7] studied the influence of neutralisation reaction on 21 bridges in Taiwan. They predicted the performance degradation curve of the Bridges and the appropriate timing for repair. Reference [8] investigated Sorell Causeway Bridge in Tasmania, Australia. The Bridge demolished in 2002 because of the concerns about its safety in the light of the increasing size and frequency of longitudinal cracks in the webs of the beams, progressive failure of the strands in the tendons, and rebar corrosion. Reference [9] assessed the seismic vulnerability of 148 existing RC bridges in Algiers. They presented a simple and efficient inspection method for the preliminary evaluation of the seismic vulnerability of existing bridge structures. The intent of the current case study, which conducted on 27/3/2019, is to provide a comprehensive view of Jordanian highway Bridges which will be valuable for the Ministry of Public Work and Housing in Jordan, the Jordanian Engineers Association, and for Civil Engineering Students and Professors in Jordanian Universities. This case study can lead to building up a comprehensive Database regarding Bridges status in Jordan, in which the Bridges can be classified into categories with respect to their maintenance priority. This proposition will greatly help in avoiding Bridges accidents.

Jordan is a key country in the Middle East connecting the gulf countries with the northern west countries. The dissert highway in Jordan is the main road crossing the country from Aqaba in the south to Irbid in the north, passing by the capital Amman. Most of the country and Middle East goods are delivered through this highway, specifically 89% of local goods and 32% of Middle East goods are conveyed along it according to the Ministry of Industry and Trade. Nevertheless, there is no official maintenance guide for the highway bridges in Jordan, which are located along the highway. There is even no periodic monitoring or safety check of bridges by officials. In this case study, two highway bridges near Al-Hossainea town southern to Amman will be inspected and assessed. These two highway bridges across the desert highway in Jordan are named as Al-Qadisia and Unayza-Petra bridges. The two bridges are located south of Al-Hossainea with 600 m and 6 km, that is 175 km and 183 km south of Amman, respectively.

The case study resulted in a comprehensive view of the two Bridges’ conditions and provided recommendations for suitable rehabilitation techniques. All this information is shown in Table 1.

As seen in Table 1. Some girders in both Bridges are totally deficient, these girders can’t be rehabilitated due to their intensive failure. The authors advise that these girders must be replaced immediately, any delay will carry over the failure to the next girders and will cause a failure in the Bridges’ deck. If such a scenario happens, then loses in lives and costs will be huge.

Regarding the moderately damaged girders, these girders should be rehabilitated immediately to avoid damage propagation. If not, then they will keep deteriorating until they reach the severe damage case. In which, they will have to be replaced, which will increase the cost. The rehabilitation process has to be carried according to [10] [11] , and [12] . First, the loss concrete must be removed, and then the concrete surface must be cleaned. After that, epoxy should be used to bond the old concrete surface with the newly casted concrete. This will prevent corrosion of steel reinforcement and section deterioration. As these girders’ capacity still not regained due to reinforcement buckling and cutting, FRP composites can be used to strengthen these girders. Concrete or steel jacketing have a larger size and will reduce the Bridges clearance, which will increase the problem since more trucks will collide with them until their failure. FRP laminates are very thin but effective, and their application to the girders is easier.

The minor damaged girders need a concrete cover to protect their reinforcement, so loss concrete must be cleaned and epoxy can be used to bond the new cover to the old section. Since these girders have no concrete spalling or reinforcement failure, then there is no need for strengthening composites.

After assessing the two bridges by the authors, who are experts in Bridges inspection with experience from the USA, the following points and recommendations are concluded:

Regarding Al-Qadisia Bridge (Pre-Stressed and Reinforced Concrete Bridge):

*Severe damage: entire loss of concrete at the bottom, loss of duct and cutting of strands, intensive deformation of steel reinforcement, cutting of stirrups, and heavy cracks propagation starting at bottom and reaching top. Moderate damage: spalling of concrete cover, exposed tendons and rusting of ducts, deformation and corrosion of steel reinforcement, cutting of stirrups, and cracks propagation. Minor damage: spalling of concrete not more than 3 - 5 cm, appearance of rebar and duct.

1) According to the current inspection, this Bridge needs three box culverts 2 × 2 m for rainfall drainage to avoid ponding at winter season.

2) It is necessary to have clearance of 5.6 m as a minimum height to avoid collision with over-height trucks. This needs a topography surveying to achieve this task.

3) According to the current inspection, Girders No. 1, 2 on the eastern direction and No. 10 on the western direction need immediate replacement because of severe damage (the inspectors concluded that it will be less expensive than repairing and rehabilitating them by 19.6%). However this technique needs highly qualified people and high quality materials with past experience in this field.

4) Girders No. 4, 5, 6, 7 on both western and eastern sides need immediate rehabilitations.

Regarding Unayza-Petra Bridge (Reinforced Concrete Bridge):

1) It is necessary to have clearance of 5.6 m as a minimum height to avoid collision with over-height trucks. This needs a topography surveying to achieve this task.

2) According to the current inspection, Girder No. 1 on the western direction needs immediate replacement because of severe damage (the inspectors concluded that it will be less expensive than repairing and rehabilitating them by 27.1%).

3) Girders 2, 3, and 7 on the eastern direction need immediate repair and rehabilitation.

The authors declare no conflicts of interest regarding the publication of this paper.

Al-Baijat, H. and Alhawamdeh, M. (2019) Inspection and Assessment of Highway Bridges in Jordan along the Desert Highway: A Case Study. Open Journal of Composite Materials, 9, 249-259 https://doi.org/10.4236/ojcm.2019.93014