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1、EXPERIMENTAL RESEARCH OF REINFORCED CONCRETE COLUMNRETROFIT METHODSIntroductionAs the infrastructure of our country continues to age, the need for effective retrofittreatments has increased. Many building and bridge structural components no longerprovide capacity sufficient to meet the required code
2、 standards. Seismic upgrading andreinforcement protection are two of the major issues requiring retrofits. Additionally,many aging structural members no longer provide the load capacity of the original designbecause of concrete cracking, steel corrosion, or other damage. In this research, severalret
3、rofit methods for increasing the axial load capacity of reinforced concrete columnswere tested and analyzed.Several currently applied methods for retrofitting columns include concrete jacketing,steel jacketing, and fiber reinforced polymer (FRP) jacketing. All three methods havebeen shown to effecti
4、vely in increase the axial load capacity of columns. In addition, anew reinforcement product, Prefabricated Cage System (PCS) reinforcement, wasintroduced as a possible reinforcement option for concrete jacket retrofit applications.Project ScopeThree retrofit reinforcement options, concrete jacketin
5、g, steel jacketing, and FRPwrapping, were experimentally analyzed in the research. Three different materialsprovided reinforcement for the concrete jackets: a rebar cage with spiral transversereinforcement, welded wire fabric (WWF), and the aforementioned PCS. All specimenswere tested under axial co
6、mpression loading only. Applied load and displacement weremeasured for all specimens throughout testing until failure. Additionally, response of theloaded specimens was observed and documented throughout the testing. Behavior of thenewly introduced PCS reinforcement was compared with traditionally u
7、sed retrofitapplications already currently utilized in the structural engineering industry. Advantagesand disadvantages of each retrofit measure were identified. Additionally, model conceptswere presented for the response of concrete jacket retrofitted columns based on the workof Mander et al. (1988
8、) and Cai (1987).Project SummarySeventeen circular columns were constructed and tested to failure in compression. First,similar reinforced concrete base columns were constructed with spiral transversereinforcement. All base specimens had the same dimensions, transverse, and longitudinaleinforcement.
9、 The base specimens were then retrofitted with the different retrofitmethods previously discussed. One specimen, referred to as the base specimen, wastested without any retrofit applied. Three specimens were retrofitted with a spiral rebarreinforced concrete jacket. Two specimens were reinforced wit
10、h a welded wire fabricreinforced concrete jacket. Three specimens were retrofitted with FRP wraps and twomore specimens were retrofitted with steel jackets. In addition, six specimens wereretrofitted with a PCS reinforced concrete jacket, including two different thicknesses ofPCS.Nine specimens had
11、the entire cross section of the base column and retrofit area loaded.This simulated a retrofit condition when the applied load is distributed across the entirecross section. Five specimens had the cross section of only the base column loaded,which simulated a condition when the load is only applied
12、to the original member. Threeother specimens had increased lateral reinforcement spacing with similar transversereinforcement strength per spacing. These specimens also had the entire retrofit and basecolumn cross-section loaded.RETROFIT OF EXISTING STRUCTURESMany structures have historically been c
13、onstructed using reinforced concrete. Typicalordinary concrete consists of four constituents: gravel, sand, water, and cement.Reinforced concrete has some type of reinforcement, typically steel, combined withconcrete to produce a stronger system than plain concrete. Concrete is strong incompression
14、but weak in tension. Tensile forces cause concrete to crack and eventuallyfail in a brittle manner at stresses significantly lower than the compression strength ofconcrete. Steel, or another type of reinforcement material, can be used to compensate forthe weak tensile strength of concrete. This syst
15、em is referred to as reinforced concrete.As reinforced concrete ages, a variety of detrimental effects can occur. These includespalling, flaking, or cracking of the concrete, and subsequent corrosion of the reinforcingsteel. These occurrences can significantly affect the strength of structural membe
16、rs.Members displaying these adverse affects may be rehabilitated using an appropriateretrofit method.Retrofitting is typically done for two reasons: rehabilitation or strengthening. Aspreviously discussed, rehabilitation is fixing the structural deficiencies of a damagedstructure or structural member. This may be necessary for aging members that no longerdisplay the strength of the original design. Strengthening increases the load-carryingcapacity of a s
