Pablo García de Paredes scite author profile

Pablo García de Paredes

4Publications

7Citation Statements Received

5Citation Statements Given

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Affiliations

Universidad de Panamá, Université Laval

Publications

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Undercutless caving at Newcrest: towards the next generation of cave mining

Paredes¹,

Popa²,

Kline³

et al. 2020

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Mass mining and particularly the cave mining industry is facing technical challenges that include those associated with greater depths, lower grades and demand for increased productivity (Flores 2014). New orebodies and expansion of current mines demand safer, faster, and lower-cost approaches to establishment and operation. The rate at which a cave is established is crucially dependent on the efficiency of the undercut process, which is becoming increasingly difficult and costly to execute in deeper orebodies. For these reasons, the development of alternative and more effective cave establishment methodologies has become critical. In this context, Newcrest has initiated the NextGen Caving programme, which endeavours to develop and implement novel, cost effective techniques for mining the next generation of block caves aiming to unlock low grade massive ore bodies at greater depths. Among the NextGen initiatives is the Undercutless Caving concept or Single Pass Cave Establishment (SPCE). This aims to improve safety, and reduce cave establishment time and cost, by establishing the drawbell and undercut components of a traditional block cave method from a single level and process. If proven to be successful, Single Pass Cave Establishment will not only change how Newcrest evaluates and constructs block cave projects, it will also represent a step change for the caving industry. To engineer, test, validate and implement this concept, Newcrest has embarked on an ambitious project consisting of a design study and two trials. This paper introduces the Undercutless Caving concept alongside the results of the first practical trial at the Telfer Mine in Western Australia. Successful results from a practical trial at Telfer have been achieved, with complete undercut and connectivity gained across the major and minor apex pillars of the planned four drawbell layout, of comparable pillar sizes to that at Cadia East. As an industry first of achieving drawbell and undercut establishment from a single level with no void above and with unprecedented drawbell and pillar dimensions, this milestone represents a significant step forward in cave establishment for the industry.

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Estudio de la meteorización de los cementos por espectroscopia infrarroja

Paredes¹,

Calleja²,

Vázquez³

et al. 1969

Mater. construcc.

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INTRODUCCIÓNComo es bien sabido, las propiedades hidráulicas, y por lo tanto la actividad de los cementos, dependen en gran medida de las condiciones de su conservación. O dicho de otra forma: aquellas propiedades varían en los cementos con la exposición, previa a su empleo, a los agentes atmosféricos y, particularmente, a la humedad y al anhídrido carbónico; esto es, la actividad de los cementos depende de su meteorización o de su aireación.La influencia que los agentes atmosféricos ejercen sobre los cementos está estrechamente relacionada con diversos factores intrínsecos, entre los que se puede considerar como más importantes su naturaleza química y su finura. Es decir, la acción de estos agentes es de naturaleza fisicoquímica y se manifiesta conjuntamente por una modificación de la composición química y de la granulometría o, si se prefiere, de la superficie específi-ca de los cementos afectados. A su vez, todas esas modificaciones influyen sobre el comportamiento mecánico de los hormigones y morteros fabricados con cementos meteorizados.El análisis químico de un cemento meteorizado acusa siempre un aumento de la pérdi-da al fuego. Este aumento da una idea global de la importancia de la meteorización, y por consiguiente, de la hidratación y de la carbonatación previas del cemento anhidro, las cuales afectan principalm^ente a sus partículas más finas. Sin embargo, el simple dato de una pérdida al fuego no aclara nada sobre el mecanismo de la meteorización, ni sobre qué constituyentes del cemento han sido más afectados o qué compuestos hidratados y carbonatados se han formado en el curso de la meteorización.Hay otras técnicas de naturaleza física, que permiten profundizar mucho más en el conocimiento del fenómeno; por ejemplo, el análisis termogravimétrico y el análisis tér-mico diferencial, ambos empleados con frecuencia para estos propósitos.La finalidad de este trabajo es la aplicación de la espectroscopia infrarroja, como una nueva técnica de posible aplicación a aquellos problemas.

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Using “Home” to Explain the Factors Affecting Residential Satisfaction The Case of Panama’s Heterogeneous Environments During The Covid-19 Crisis

Paredes

2022

Housing, Theory and Society

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Cenizas volantes

Paredes¹

1958

Mater. construcc.

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