Innovazione e gestione dei programmi sincronizzata e collaborativa per i nuovi programmi
Aerospaziale e difesa
Innovazione e gestione dei programmi sincronizzata e collaborativa per i nuovi programmi
EsploraIndustria automobilistica e trasporti
Integration of mechanical, software and electronic systems technologies for vehicle systems
Esplora il settoreProdotti di consumo e vendita al dettaglio
Innovazione dei prodotti attraverso la gestione efficace di processi integrati di formulazione, confezionamento e produzione
Esplora il settoreElettronica e semiconduttori
Lo sviluppo di nuovi prodotti si avvale dei dati per migliorare la qualità e la redditività riducendo costi e time-to-market
Esplora il settoreEnergia e utilità
Supply chain collaboration in design, construction, maintenance and retirement of mission-critical assets
Esplora il settoreHeavy Equipment
Construction, mining, and agricultural heavy equipment manufacturers striving for superior performance
Explore IndustrySoluzioni per macchinari industriali e attrezzature pesanti
Integration of manufacturing process planning with design and engineering for today’s machine complexity
Esplora il settoreInsurance & Financial
Visibility, compliance and accountability for insurance and financial industries
Explore IndustrySettore navale
Innovazione nella cantieristica navale per ridurre i costi di sviluppo delle future flotte in modo sostenibile
Esplora il settoreMedia & Telecommunications
Siemens PLM Software, a leader in media and telecommunications software, delivers digital solutions for cutting-edge technology supporting complex products in a rapidly changing market.
Explore IndustryApparecchiature medicali e farmaceutica
"Innovazione di prodotto personalizzata" attraverso la digitalizzazione per soddisfare la domanda del mercato e ridurre i costi
Esplora il settoreSmall & Medium Business
Remove barriers and grow while maintaining your bottom line. We’re democratizing the most robust digital twins for your small and medium businesses.
Explore IndustryHot to cold blade shape conversion
Hot to cold blade shape conversion
In this webinar, hear how Siemens Energy uses Simcenter to perform hot to cold conversion in a single analysis step. Learn more on their validation methods and confidence in the results.
Efficient blade shapes are key to designing efficient turbines. Compressor blade geometry is first defined for the operating, hot shape. This must be reverse engineered to the cold blade shape before manufacturing, which often requires an iterative finite element approach. In this webinar, hear how Siemens Energy use Simcenter to perform hot to cold conversion in a single analysis step. This approach is up to five times quicker than a standard iterative method, with the same level of accuracy.
You will learn:
One of the key design criteria for engine blades is that they are able to perform a certain number of design cycles without failing due to stress fatigue. In this webinar hear how Siemens Energy use Simcenter solutions to identify the high stress regions and engine loads. They also share results from validation studies for their mechanical stress model.
Simon Jackson
Principal Analytical Engineer , Siemens Energy Industrial Turbomachinery Ltd, UK
Simon Jackson is a Principal Analytical Engineer for mechanical integrity at Siemens Energy Industrial Turbomachinery Ltd, UK. He received his Bachelor of Engineering degree in Mechanical Engineering in 1990 from Staffordshire University and since then has been working at the gas turbine facility in Lincoln, firstly on package design and the past 20 years on stress, life and vibration analysis of compressor/turbine blades and discs. He is an Associate member of the IMechE.
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In this webinar, hear how Siemens Energy uses Simcenter to perform hot to cold conversion in a single analysis step. Learn more on their validation methods and confidence in the results.
Efficient blade shapes are key to designing efficient turbines. Compressor blade geometry is first defined for the operating, hot shape. This must be reverse engineered to the cold blade shape before manufacturing, which often requires an iterative finite element approach. In this webinar, hear how Siemens Energy use Simcenter to perform hot to cold conversion in a single analysis step. This approach is up to five times quicker than a standard iterative method, with the same level of accuracy.
You will learn:
One of the key design criteria for engine blades is that they are able to perform a certain number of design cycles without failing due to stress fatigue. In this webinar hear how Siemens Energy use Simcenter solutions to identify the high stress regions and engine loads. They also share results from validation studies for their mechanical stress model.
Simon Jackson
Principal Analytical Engineer , Siemens Energy Industrial Turbomachinery Ltd, UK
Simon Jackson is a Principal Analytical Engineer for mechanical integrity at Siemens Energy Industrial Turbomachinery Ltd, UK. He received his Bachelor of Engineering degree in Mechanical Engineering in 1990 from Staffordshire University and since then has been working at the gas turbine facility in Lincoln, firstly on package design and the past 20 years on stress, life and vibration analysis of compressor/turbine blades and discs. He is an Associate member of the IMechE.
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