Posted : Thursday, August 15, 2024 02:57 PM
How do you manufacture the world’s cleanest alloy steel? How do you help your customers push the bounds of what’s possible? With a smart and passionate team of people who are focused on a strong set of core values, on giving their best every day, and who are proud of the contributions they’re making to our company and community.
People who want to make a difference.
Relocation will not be offered for this position.
Purpose: This role is responsible for improving work force productivity and asset reliability by eliminating potential delays cause by repeat failures and by leading the effort to improve asset reliability.
The reliability engineer will lead the effort to standardize and implement reliability programs focused on the overall life cycle cost of the assets.
The reliability engineer is focused on the life cycle cost of assets and leads the efforts directed at reliable and maintainable asset design.
All opportunities to pro-actively improve asset reliability to increase plant productivity, improve performance, and reduce total cost of operation/ownership will be captured while complying with and enhancing where appropriate EHS standards.
Steel Manufacturing is an extremely asset intensive business whereas this key position is required to reduce risk and reduce costs.
The reliability engineer position plays an essential role in efficiently analyzing then communicating the results of utilizing and managing our maintenance and contractor workforces.
The same is done with asset reliability, based upon the results of proactive and reactive asset strategies.
The reliability engineer works across plant boundaries to establish standard practices dealing with asset reliability and design.
Responsibilities: Assets: Leads teams to develop ideas directed at optimized asset performance, including but not limited to asset standardization, qualifications for internal/external repairs, asset specifications, replacement strategies, criticality assessment process, elimination of repeat asset failures, and lowering Total Life Cycle Costs.
Data: Analyzes complex data with multiple goals: monitoring current processes, development of new KPIs, data mining for continuous improvement opportunities, cost/benefit analysis of future projects/process implementations.
Assimilates data from multiple databases and formats to accomplish this task.
Various analysis techniques required for example: SPS, Weilbull, Six Sigma, RCA, NPV, FMEA, etc.
There may also be times when needed data is not collected, which would require development of the appropriate collection system.
Champions recommendation of projects brought to light during analysis.
Projects may be local to a specific area/asset or business wide process implementations.
Leads the implementation of these projects.
Reliability Processes: Promote Reliability Practices across the business.
Consult publications and professional societies to identify, develop and maintain key metrics that measure the effectiveness of the maintenance business processes, developing methods of data collection where appropriate.
Develop and lead plans to improve performance in areas where the metrics lag from Best Practices (as identified by research).
Reliability Processes: Develop systems, formulas, and processes around asset critical inventory strategies including stocking levels, usage rates, internal/external stocking practices, and point of use versus central storeroom locations.
Additionally, supports and communications the requirements of standardization of asset hierarchies, asset criticality, and PM optimization.
Lead: Lead the implementation of improvement plans via project management with cross functional team from various departments: safety, purchasing, maintenance, production, finance, etc.
Leads processes to improve the structured work identification processes for reliability advancement process.
This process can involve use of Maintenance Task Assessment process and/or use of the Preventative Maintenance module of the Maximo software package.
This should also include review of changing operating conditions and optimization of Mean Time Between Failure evaluations.
Technical Skills: Industrial maintenance experience with exposure to a union environment.
Heavy industrial reliability experience with exposure to condition-based monitoring, work identification and asset criticality analysis.
Standardization of asset hierarchy and asset criticality.
Root Cause Failure Analysis on heavy industrial or steel making equipment.
Failure Modes and Effects Analysis (FMEA).
Facilitation of TPM, RCM.
PM and PdM program development.
Life cycle cost analysis.
Read and understand engineered drawings.
Prior CMMS experience Maximo preferred.
Microsoft Office.
Industrial systems such as hydraulics, pneumatics, PLC, industrial drives, power transmission.
Written and verbal communication skills.
Statistical analysis techniques.
Minimum Qualifications: Bachelor of Engineering with at least 2 years of planning and scheduling, reliability engineering, Spare's inventory, data mining, or steel manufacturing experience.
Preferred Qualifications: Bachelor of Engineering with at least 4 years of planning and scheduling, reliability engineering, Spare's inventory, data mining, or steel manufacturing experience.
Masters of Engineering, Leadership, Business, Economics, or Statistics Six Sigma certification preferred Certified Maintenance Reliability Professional preferred All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, disability, or protected veteran status.
People who want to make a difference.
Relocation will not be offered for this position.
Purpose: This role is responsible for improving work force productivity and asset reliability by eliminating potential delays cause by repeat failures and by leading the effort to improve asset reliability.
The reliability engineer will lead the effort to standardize and implement reliability programs focused on the overall life cycle cost of the assets.
The reliability engineer is focused on the life cycle cost of assets and leads the efforts directed at reliable and maintainable asset design.
All opportunities to pro-actively improve asset reliability to increase plant productivity, improve performance, and reduce total cost of operation/ownership will be captured while complying with and enhancing where appropriate EHS standards.
Steel Manufacturing is an extremely asset intensive business whereas this key position is required to reduce risk and reduce costs.
The reliability engineer position plays an essential role in efficiently analyzing then communicating the results of utilizing and managing our maintenance and contractor workforces.
The same is done with asset reliability, based upon the results of proactive and reactive asset strategies.
The reliability engineer works across plant boundaries to establish standard practices dealing with asset reliability and design.
Responsibilities: Assets: Leads teams to develop ideas directed at optimized asset performance, including but not limited to asset standardization, qualifications for internal/external repairs, asset specifications, replacement strategies, criticality assessment process, elimination of repeat asset failures, and lowering Total Life Cycle Costs.
Data: Analyzes complex data with multiple goals: monitoring current processes, development of new KPIs, data mining for continuous improvement opportunities, cost/benefit analysis of future projects/process implementations.
Assimilates data from multiple databases and formats to accomplish this task.
Various analysis techniques required for example: SPS, Weilbull, Six Sigma, RCA, NPV, FMEA, etc.
There may also be times when needed data is not collected, which would require development of the appropriate collection system.
Champions recommendation of projects brought to light during analysis.
Projects may be local to a specific area/asset or business wide process implementations.
Leads the implementation of these projects.
Reliability Processes: Promote Reliability Practices across the business.
Consult publications and professional societies to identify, develop and maintain key metrics that measure the effectiveness of the maintenance business processes, developing methods of data collection where appropriate.
Develop and lead plans to improve performance in areas where the metrics lag from Best Practices (as identified by research).
Reliability Processes: Develop systems, formulas, and processes around asset critical inventory strategies including stocking levels, usage rates, internal/external stocking practices, and point of use versus central storeroom locations.
Additionally, supports and communications the requirements of standardization of asset hierarchies, asset criticality, and PM optimization.
Lead: Lead the implementation of improvement plans via project management with cross functional team from various departments: safety, purchasing, maintenance, production, finance, etc.
Leads processes to improve the structured work identification processes for reliability advancement process.
This process can involve use of Maintenance Task Assessment process and/or use of the Preventative Maintenance module of the Maximo software package.
This should also include review of changing operating conditions and optimization of Mean Time Between Failure evaluations.
Technical Skills: Industrial maintenance experience with exposure to a union environment.
Heavy industrial reliability experience with exposure to condition-based monitoring, work identification and asset criticality analysis.
Standardization of asset hierarchy and asset criticality.
Root Cause Failure Analysis on heavy industrial or steel making equipment.
Failure Modes and Effects Analysis (FMEA).
Facilitation of TPM, RCM.
PM and PdM program development.
Life cycle cost analysis.
Read and understand engineered drawings.
Prior CMMS experience Maximo preferred.
Microsoft Office.
Industrial systems such as hydraulics, pneumatics, PLC, industrial drives, power transmission.
Written and verbal communication skills.
Statistical analysis techniques.
Minimum Qualifications: Bachelor of Engineering with at least 2 years of planning and scheduling, reliability engineering, Spare's inventory, data mining, or steel manufacturing experience.
Preferred Qualifications: Bachelor of Engineering with at least 4 years of planning and scheduling, reliability engineering, Spare's inventory, data mining, or steel manufacturing experience.
Masters of Engineering, Leadership, Business, Economics, or Statistics Six Sigma certification preferred Certified Maintenance Reliability Professional preferred All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, disability, or protected veteran status.
• Phone : NA
• Location : Canton, OH
• Post ID: 9023781855