Desarrollo de materiales ligeros modificados para su aplicación en implementos para la movilidad de personas en situación de discapacidad.

Detalles del proyecto

Descripción

In order to make transport systems more efficient in terms of energy use, making viable the development of vehicles powered by electric power and encouraging the use of mobility systems with human propulsion, one of the main goals is the reduction of weight of the vehicles. as a solution to this problem, magnesium and its alloys are currently being studied, given their density is much lower than other metals as well as properties such as high specific mechanical strength, good machinability, excellent recyclability and high vibration absorption. however, the high chemical reactivity and low wear resistance of this material have limited its application. in this way, this project is framed in the axis for the aggregation of value to renewable and non-renewable resources,with the development of a new material with application to the automotive and aerospace sector, and also takes into account contributing to the other two axes, building peace in the area of ??rehabilitation of people in situations of disability and green growth by considering only processes and materials environmentally sustainable. regarding the product to be developed with the new material obtained, it has been detected that it is important to have a wheelchair design that meets the particular needs of the population affected by mutilation of lower limbs, in search of better rehabilitation and increase the mobility capacity of this population.peace building on the issue of rehabilitation of people with disabilities and green growth, considering only environmentally sustainable processes and materials. regarding the product to be developed with the new material obtained, it has been detected that it is important to have a wheelchair design that meets the particular needs of the population affected by mutilation of lower limbs, in search of better rehabilitation and increase the mobility capacity of this population.peace building on the issue of rehabilitation of people with disabilities and green growth, considering only environmentally sustainable processes and materials. regarding the product to be developed with the new material obtained, it has been detected that it is important to have a wheelchair design that meets the particular needs of the population affected by mutilation of lower limbs, in search of better rehabilitation and increase the mobility capacity of this population.it has been detected that it is important to have a wheelchair design that meets the particular needs of the population affected by mutilation of lower limbs, seeking to achieve better rehabilitation and increase the mobility capacity of this population.it has been detected that it is important to have a wheelchair design that meets the particular needs of the population affected by mutilation of lower limbs, seeking to achieve better rehabilitation and increase the mobility capacity of this population.

Objetivo

Desarrollar un proceso industrializable de modificación de aleaciones de magnesio para incrementar su resistencia a la corrosión y al desgaste con el fin de aplicarlo al desarrollo de partes en el sector automotriz y aeroespacial y generar como producto tangible en este material una silla de ruedas de altas prestaciones.

Resultados esperados

Obtener los protocolos de tres diferentes métodos de procesamiento superficial de aleaciones de mg que permitan mejorar su resistencia a la corrosión y al desgaste, que viabilice el uso de estos materiales en la industría automotriz y aeroespacial. obtener las variables óptimas de procesamiento superficial de aleaciones de mg con el fin de incrementar su resistencia a la corrosión y al desgaste, que viabilice el uso de estos materiales en la industria automotriz y aeroespacial. obtener las condiciones de fabricación de aleaciones de mg por medio de la técnica de metalurgia de polvos, con el fin de obtener un material con alto desempeño mecánico y a la vez alta resistencia a la corrosión y al desgaste, que pueda ser usado en la fabricación de piezas en el sector
EstadoActivo
Fecha de inicio / finalización efectiva9/02/179/02/21

Huella digital

Explore los temas de investigación que se abordan en este proyecto. Estas etiquetas se generan con base en las adjudicaciones/concesiones subyacentes. Juntos, forma una huella digital única.