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Design Consideration01:22

Design Consideration

Designing a structure involves a series of considerations, primarily the material's ultimate strength, calculated through tests that measure changes under increased force until the material reaches its breaking point or limit. The ultimate load, where the material breaks, is divided by its original cross-sectional area, resulting in the ultimate normal stress or strength. The ultimate shearing stress is another significant factor taken into account.
The factor of safety is another key aspect...
Design of Prismatic Beams for Bending01:23

Design of Prismatic Beams for Bending

The design of prismatic beams, structural elements with a uniform cross-section, focuses on ensuring safety and structural integrity under load. The design process begins by determining the allowable stress, either from material properties tables, or by dividing the material's ultimate strength by a safety factor. This safety factor is essential for accommodating uncertainties, and varies depending on the material—timber, steel, or concrete—with each having unique strength and stress...
Design Example: Managing Concrete Workability01:14

Design Example: Managing Concrete Workability

This example deals with managing the workability of concrete for a raft foundation project under hot weather conditions. Workability is crucial for ensuring the concrete is easy to place, compact, and finish. In this scenario, a slump test — a common method to measure the workability of fresh concrete — initially indicated low workability. This was attributed to the rapid water loss from the concrete mix, exacerbated by the high temperatures causing the course aggregates to heat up.
To address...
Strength of Cement01:20

Strength of Cement

Strength tests for cement are not performed directly on neat cement paste due to difficulty in obtaining consistent, reliable specimens. Instead, cement is typically tested in the form of cement-sand mortar.
For compressive strength tests, ASTM C 109-05 standards prescribe a cement-sand mix ratio of 1:2.75 and a water/cement ratio of 0.485 for making 2-inch cubes. These cubes are mixed, cast, and cured in saturated lime water at 23°C until testing. Flexural strength testing, outlined in ASTM C...
Reinforced Brick Masonry01:15

Reinforced Brick Masonry

Reinforced brick masonry is an advanced construction technique that enhances the structural integrity of brick walls by incorporating steel reinforcements. These reinforcements are either placed within the hollow cores of bricks or sandwiched between two layers of masonry, known as wythes, and are then secured in place with grout. Grout is a fluid mixture composed of Portland cement, aggregate, and water, providing the necessary bonding agent for the steel and brick.
To fortify brick walls...
Structure-Activity Relationships and Drug Design01:28

Structure-Activity Relationships and Drug Design

Drug design is a dynamic field that involves discovering and developing new medications based on specific biological targets. This process heavily relies on structure-activity relationships (SAR) and quantitative structure-activity relationships (QSAR) to guide the design and optimization of efficient drugs.
SAR studies the intricate relationship between a drug's chemical structure and biological activity. It focuses on understanding how modifications to a drug's structure can influence its...

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Video Experimental Relacionado

Updated: Jul 12, 2026

Research and Development of High-performance Explosives
10:33

Research and Development of High-performance Explosives

Published on: February 20, 2016

Construir una política de I + D desde la fortaleza.

R W Schmitt

    Science (New York, N.Y.)
    |June 3, 1983
    PubMed
    Resumen

    Aprovechar las fortalezas existentes en capital de riesgo, universidades de investigación e industria de alta tecnología para avanzar en la investigación y el desarrollo nacionales. Centrarse en fundamentos probados en lugar de iniciativas no probadas para la innovación futura.

    Área de la Ciencia:

    • Política de Ciencia y Tecnología Política de Ciencia y Tecnología.
    • Ecosistemas de innovación Los ecosistemas de innovación.
    • Investigación y Desarrollo Nacional.

    Sus antecedentes:

    • Existen numerosas propuestas para nuevas iniciativas nacionales de investigación y desarrollo (I+D).
    • Es necesaria una evaluación crítica de las fortalezas fundamentales del sistema de I+D existente antes de adoptar nuevos enfoques.

    Objetivo del estudio:

    • Abogar por la construcción de fortalezas establecidas dentro del sistema nacional de I + D.
    • Hacer hincapié en la utilización estratégica de los activos existentes para la innovación y el desarrollo futuros.

    Principales métodos:

    • Análisis de la actual infraestructura nacional de I+D.
    • Identificación de los factores clave que contribuyen al éxito pasado de I + D.

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    Principales resultados:

    • La nación posee un clima de capital de riesgo altamente favorable.
    • Las universidades de investigación de clase mundial proporcionan una sólida base académica.
    • Existe una base industrial agresiva de alta tecnología impulsada por la competencia.
    • El sector de la defensa ofrece un potencial significativo como un recurso para la I + D civil.

    Conclusiones:

    • Las futuras estrategias de I + D deben priorizar e integrar las fortalezas existentes.
    • Construir sobre activos probados es más efectivo que perseguir métodos no probados.
    • Las sinergias entre el capital de riesgo, la academia, la industria y la defensa pueden impulsar la I + D hacia adelante.