Shivangi Pose
About Shivangi Pose
Shivangi Pose is an Associate Procurement Manager at thyssenkrupp in India with nine years of experience in EPC Project Planning and Expediting.
Title
Shivangi Pose holds the position of Associate Procurement Manager at thyssenkrupp in India.
Company
Shivangi Pose is currently employed by thyssenkrupp as an Associate Procurement Manager in India.
Education and Expertise
Shivangi Pose completed her Bachelor's degree in Engineering with a focus on Production from the University of Mumbai. She studied from 2006 to 2010 and obtained a BE degree. Her academic background has equipped her with technical knowledge and expertise in the engineering field.
Career Background
Shivangi Pose has accumulated significant experience in the engineering and procurement sectors. She started her career at Siemens India Limited as an Apprenticeship Engineer for five months in 2009-2010. She then worked as a Junior Engineer at SITSON INDIA PVT. LTD. from 2011 to 2013. This was followed by a role at Toyo Engineering India Limited in Mumbai from 2013 to 2015, also as a Junior Engineer. Shivangi then served as Project Management Officer at Eisenmann India Pvt Ltd from 2016 to 2017. She returned to Toyo Engineering Corporation as an Engineer from 2018 to 2020 before joining thyssenkrupp.
Roles and Responsibilities
In her role as Associate Procurement Manager at thyssenkrupp, Shivangi Pose oversees desk expediting operations for packages including statics, rotary, and piping in projects. She ensures the timely and accurate delivery of goods to specified locations. Shivangi is involved in developing project alternatives for vendors to improve performance and supports the implementation of actions to mitigate supplier schedule disruptions. She also monitors, evaluates, and reports on supplier performance and assists in the development of recovery plans. Additionally, she collaborates on revising production schedules to address design changes, material shortages, and other interruptions, ensuring site construction schedules are met.