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While there is a permanent improvement of concrete pavement mixtures and pavement construction types over the last decades, the state-of-the-art joint sealing materials and joint constructions seem to stagnate on an antiquated empirical level. This status has been reaffirmed in the latest European standard. The consequences in the motorway network due to unsatisfying capability and durabilty of joint sealing systems are unacceptable. In addition, inadequate traffic performance (noise emissions, roll-over comfort) and traffic safety losses in the joint area of concrete pavements are existing challenges. These deficits and weaknesses reflect a demand for joint sealing materials and constructions whose approval requirements take functional aspects into account. Furthermore a sufficient analysis of decisive loads and a practice-oriented method to evaluate the requirements towards performance and durability is still missed. In this contribution decisive loads to German highways are analyzed. The design of test specimen for representative functional testing of joint sealing systems is discussed. The focus is on the geometry of the test specimens and the used concrete mixture. Finally, a new approach for a function-orientated test concept that considers representative load functions is presented. The potential of this approach to validate the durability and capability of various joint sealing systems is also presented using an example.
More Information about the capability and especially about the dnrabi 1 ity of Structural Sealant Glazing (SSG) Systems are needed. To make a contribution to questions unanswered a suitable System evaluation test is necessary. The Basis for such a test is a load function, vvhich accounts for the decisive loads SSG Systems are exposed to during their working life. This paper proposes a general load function for Standard SSG Systems at central German locations for accelerated durability tests. Decisive loads are determined and different SSG construction types defmed. The performance of these SSG Systems under exposure to externa! loads and to a dynamic pendulum impact is investigated via finite element analyses using a hyperelastic material niodel. The external loads are applied separately and superimposed. Compression, tensile and shear deformations of the sealant are determined. It is found that the sealant is subjected to normal and shear stresses simultaneously. The requirements for a representative specimen are derived. The results will be taken as basics for the development and the construction of a test facility to evaluate the durability of Structural Sealant Glazing Systems.
More information about the capability and especially about the durability of structural sealant glazing (SSG) systems are needed. To make a contribution to unanswered questions, a suitable system evaluation test is necessary. The basis for such a test is a load function, which accounts for the decisive loads SSG systems are exposed to during their working life. This paper proposes a general load function for standard SSG systems at central German locations for accelerated durability tests. Decisive loads are determined and different SSG construction types defined. The performance of these SSG systems under exposure to external loads and to a dynamic pendulum impact is investigated via finite element analyses using a hyperelastic material model. The external loads are applied separately and superimposed. Compression, tensile, and shear deformations of the sealant are determined. It is found that the sealant is subjected to normal and shear stresses simultaneously. The requirements for a representative specimen are derived. The results will be taken as basics for the development and the construction of a test facility to evaluate the durability of structural sealant glazing systems.
Quality Improvement of Expansion Joint Systems by Performance Related Tests of System Behaviour
(2002)
Dynamic-mechanical material analysis as a basis for a general performance exploration complemented by system testing under superimposed climatic and mechanical loading seems to be a promising interdependent test approach addressing the performance behavior of construction sealants under more realistic conditions. With this contribution an attempt is made to adapt dynamic-mechanical material analysis, which has been already successfully validated for different construction types of expansion joint systems in road and bridge engineering, to the field of construction sealants for building façades. Test results from dynamic-mechanical material analysis characterizing the temperature-dependent, deformation-dependent, and frequency-dependent behavior of structural sealant materials are presented and exemplarily discussed for three different sealant products. An attempt is made to address unknown material characteristics in the multi-dimensional loading matrix representing practical use conditions. Furthermore, the applicability of this test approach and its various complex test modes for the exploration of technological performance and especially estimation of fatigue behavior is verified in several examples. Based on this fundamental material exploration, it is planned to complement the dynamic-mechanical assessment methodology by means of system tests on a section of a structural glazing system subjected to a simplified but superimposed loading function. The technical fundamentals and the procedure proposed to develop an adequate system test mode are introduced. The motivation for these investigations is to identify the actual mechanical system behavior under load combinations and for specimens that both closer resemble reality. The objective is to achieve a consistent and interdependent test program complementary to the existing methodology. Finally, the study is meant to initiate further progress toward a performance-related methodology which considers the design, specification, material, and system selection.
Fugenfüllsysteme für Fahrbahnbeläge unter höchsten Beanspruchungen bestimmen in zunehmenden Maße die sichere Verfügbarkeit des Autobahnnetzes. Die aktuellen europäischen technischen Regelungen zu deren Verwendbarkeit folgen noch einem spezifikatorischen Ansatz auf empirischen Grundlagen. Es hat sich gezeigt, dass ein solcher Ansatz den Dauerhaftigkeits- und Nutzungsanforderungen nicht mehr entsprechen kann. Der Autor plädiert in seinem Vortrag für einen Paradigmenwechsel hin zu einem funktionsanalytischen Bewertungsansatz. Es werden Vorschläge für eine versuchstechnische Lösung des Problems und die damit verbundenen Chancen für Optimierung und Innovation aufgezeigt.