حاجی عبدالرحمن
شذرات لکھے جاچکے تھے کہ راقم (ضیاء الدین اصلاحی) کے والد حاجی عبدالرحمن صاحب وفات پاگئے۔ اناﷲ وانا الیہ راجعون۔ ۱۱؍ نومبر کو جمعہ کی نماز کے بعد تجہیز و تکفین ہوئی۔ قارئین معارف سے دعائے مغفرت کی درخواست ہے۔
(ضیاء الدین اصلاحی، نومبر ۱۹۹۴ء)
After the Prophets of Allah Almighty, the most sacred class of mankind is the class of Prophet Muhammad's Companions. Those are the people who had seen the prophet of Islam with their naked eyes, remained in his companionship and got the heights of knowledge and actions and proved to be a great example of character by attaining the image of Prophet Muhammad's model of excellence. Another class which, like the companions of Prophet (pbuh), deserves such honor is the class of Tabe’en (The followers of the Companions). Tabe'en had contributed a matchless role in the history of Islam regarding religious knowledge and literature. They had also examplary performed in social, economical, political and military services. Due to these great services they are considered the most sacred class of the Ummah after the prophet’companions. There is a list of academic and literary services ahead of the name of each person in this class. And these services are the great testimony to the greatness of these people. The prophet's companions received the religious knowledge directly from the Prophet (peace and blessings of Allah be upon him), while Tabe'en got it from the companions and then published it in the whole world. The sincere efforts performed by Tabe'en regarding Quran, Hadith, Tafseer and Islamic litrature are of so high level that no one had reached such level of sincerity in the entire history of Islam. The steps that occur after that period, regarding the development of Islamic culture are only the effects of their services. Actually ‘‘Tabe’en’’ is the only class that has spread the social, moral and spritual blessings of Islam throughout the world. That is why, it is not only the Quran that witnesses their greatness but the Prophet (peace be upon him) also praises them.
The Pacific Earthquake Engineering Research Center’s (PEER) probabilistic performance based earthquake engineering (PBEE) assessment and design framework FEMA P-58 2012 has been employed in the current research, with the application to reinforced concrete (RC) special moment resisting frames (SMRFs), to assess the seismic performance of code compliant and non-code compliant RC frames (having non-seismic provisions and construction defects/deficiencies), taking into consideration uncertainties in the definition of seismic hazard and structural response. The present research included uni-directional shake-table testing of 1:3 reduced scale RC frame models designed to Building Code of Pakistan – Seismic Provisions (BCP-SP 2007), which were detailed as per the ACI 318 (2005). The frames were built complying with the code requirements and having construction defects: low-strength concrete, lacking ties in joint panels, beam-column stirrups being provided at larger spacing, practicing reduced longitudinal reinforcements, along with non-seismic hooks. Five 1:3 reduced scale, two-story representative models were subjected to a linearly scaled accelerogram of the 1994 Northridge Earthquake for multiple excitations test. The observed damage mechanism and lateral force-deformation behavior of tested frames models were obtained, which were analyzed to calculate the frames seismic response parameters. The response modification factor (R-Factor) calculated for the code complaint frame is approximately 7.50, which is reduced by 40 to 60% for models with construction defects. One of the major findings reveals the minimum ACI 318 (2005) requirement for exterior column depth of 15 times the diameter of longitudinal steel bars is inadequate to avoid joint panel damage, specifically for structures built with lowstrength concrete and/or joint panels lacking confining ties under design-level earthquake. For numerical studies, a simple finite element based numerical model was prepared in SeismoStruct (2016) for nonlinear inelastic seismic analysis, which was calibrated with the experimental observed behavior (mechanism) and global displacement response. The modeling technique was found to capture the frame response (peak displacement and peak base shear) reasonably well. The calibrated numerical models were extended for the incremental dynamic analysis using a suite of ten spectrum compatible acceleration time histories, to derive the frames’ seismic response curve (roof drift demand versus peak input acceleration). Response ii modification factor R-Factors was calculated using both the experimental response data and numerical investigation (i.e. incremental dynamic analysis), which is critically compared with the BCP-SP (2007)/ACI 318 (2005) building code specified R factor for RC SMRF. Furthermore, the seismic performance of the considered code complaint and non-code compliant prototype structures were assessed using the PEER’s/FEMA P-58 2012 second generation PBEE methodology. This included the definition of seismic hazard, which was obtained from other existing studies. The development of frames’ fragility functions derived herein using a fully probabilistic Nonlinear Dynamic Reliability Based Method (NDRM). The considered frames performance assessment was evaluated for seismic hazard of various return periods (42, 75, 250, 475 and 2475 years) in order to compare the seismic performance of non-complaint structures relative to the code compliant structure. This research study will help provide guidance on the revision and updating of the Building Code of Pakistan – Seismic Provisions BCP-SP (2007) that can in turn help improve seismic design practices in Pakistan and contribution towards seismic risk mitigation.