Contributions of posture and grip force to forearm EMG during grip tasks

Mogk, Jeremy P. M.

January 2002

Thesis (M. Sc.)--York University, 2002. Graduate Programme in Kinesiology and Health Science. / Title on certificate page: Contributions of posture and force to forearm EMG during grip tasks. Typescript. Includes bibliographical references (leaves 108-119). Also available on the Internet. MODE OF ACCESS via web browser by entering the following URL: http://wwwlib.umi.com/cr/yorku/fullcit?pMQ71610.

Role of water film thickness in rheology of mortar and concrete

Fung, Wai-sin, Wilson., 馮懷善.

January 2010

published_or_final_version / Civil Engineering / Doctoral / Doctor of Philosophy

High strength concrete.

Mortar.

Rheology.

Use of fillers to improve packing density and performance of concrete

Chen, Jiajian., 陈嘉健.

January 2012

It is generally very difficult to produce high-performance concrete having concurrently high strength, high durability, high workability and high dimensional stability. This is because low water content is required to achieve high strength and high durability, high water content and large paste volume are required to achieve high workability, and low cement content and small cement paste volume are required to achieve high dimensional stability. One way of overcoming such conflicts is to add fillers to increase the packing density of concrete so that the amounts of water and paste needed to fill voids could be reduced. In this study, the use of fillers to improve the packing density and performance of concrete is investigated by measuring the packing density and overall performance of cement paste and concrete mix samples with different types and amounts of fillers added. The packing density results revealed that finer fillers are more effective in improving the packing density for releasing more excess water (water in excess of that needed to fill voids) to lubricate the solid particles. Moreover, triple blending of two fillers of different fineness with cement can better increase the packing density than double blending of just one filler with cement. On the other hand, the workability, strength and dimensional stability results showed that the addition of condensed silica fume, fly ash microsphere or superfine cement could improve the overall workability-strength performance of cement paste through increasing the packing density of the cementitious materials, while the addition of condensed silica fume, fly ash or limestone fine coeuld improve the overall dimensional stability-strength performance of concrete through decreasing the cement content or cement paste volume. Hence, the incorporation of fillers to improve the packing density opens up the possibility of using ultra-low W/CM ratio and ultralow paste volume to produce an ultrahigh-performance concrete. However, despite increases in packing density and excess water, the addition of fillers does not always improve the workability. Generally, the addition of fillers would more significantly increase the workability at low W/CM ratio and less significantly increase or even decrease the workability at high W/CM ratio. In-depth analysis indicated that both the excess water and solid surface area have great effects on the rheology. In this regard, a parameter called water film thickness (WFT), which is defined as the average thickness of water films coating the solid particles and may be determined as the excess water to solid surface area ratio, is proven to be the key factor governing the rheology. Therefore, it should be the WFT rather than the packing density that should be maximized in the mix design of high-performance concrete. The addition of fillers would increase both the excess water and solid surface area. If the proportional increase in excess water is larger than the proportional increase in solid surface area, the WFT would increase, but if otherwise, the WFT would decrease. To increase the WFT, a filler that can significantly increase the packing density without excessively increasing the solid surface area is the best choice. / published_or_final_version / Civil Engineering / Doctoral / Doctor of Philosophy

High strength concrete.

Concrete - Additives.

Age-related differences in muscular force application: differentiating between the influences of growth and maturation of the neuro-motor system

Korff, Thomas

28 August 2008

Not available / text

Muscles--Growth

Muscle strength--Research

THE RELATIONSHIP OF TEMPERATURE TO STRENGTH AND POWER PRODUCTION IN INTACT HUMAN SKELETAL MUSCLE

Coté, Richard William

January 1979

No description available.

Muscle strength.

Temperature -- Physiological effect.

FABRIC CHANGES ACCOMPANYING SHEAR STRAINS IN A COHESIVE SOIL

Nowatzki, Edward Alexander, 1936-

January 1966

No description available.

Shear strength of soils.

Soil mechanics.

Shear modulus and damping characteristics of soils

Palaniappan, Ellappalayam Annanalai Chettiar

05 1900

No description available.

Shear strength of soils

Damping (Mechanics)

The Influence of Copper Binding on the Stability of the SCO Protein from Bacillus subtilis

Davidson, David Eduards

25 September 2007

Every aerobic organism expresses cytochrome c oxidase to catalyze reduction of molecular oxygen to water, and takes advantage of this energy releasing reaction to produce an electrochemical gradient used in cellular energy production. The protein SCO (Synthesis of cytochrome c oxidase) is a required assembly factor for the oxidase, conserved across many species. SCO is implicated in the assembly of one of two copper centres (ie., CuA) of cytochrome oxidase. The exact mechanism of SCO’s participation in CuA assembly is not known. SCO has been proposed to bind and deliver copper, or alternatively to act in reductive preparation of the CuA site within the oxidase. In this body of work, the strength and stability of Cu(II) binding to Bacillus subtilis SCO is explored via electronic absorption and fluorescence spectroscopies and by calorimetric methods. An equilibrium dissociation constant (Kd) of 3.5x10-12 M was determined as an upper limit for the BsSCO-Cu(II) interaction, via differential scanning calorimetry. In the first reported case for a SCO homolog, dissociation kinetics of Cu(II) from BsSCO were characterized, and found to be dependent on both ionic strength and the presence of free Cu(II) in solution. Further differential scanning calorimetry experiments performed at high ionic strength support a two-step model of BsSCO and Cu(II) binding. The implications of this model for the BsSCO-Cu(II) interaction are presented in relation to the mechanism of interaction between SCO and the CuA site of cytochrome c oxidase. / Thesis (Master, Biochemistry) -- Queen's University, 2007-09-21 16:00:23.621

copper binding

SCO

ionic strength

Can L-arginine Influence the Acute Hormonal, Metabolic, and Physiological Responses at Rest and Prior to Exercise?

Forbes, Scott C

Unknown Date

No description available.

Strength

Growth Hormone

Nitric Oxide

Non-linear finite element analysis of thin-walled members

Lee, Han-Ping

January 1977

No description available.

Finite element method.

Strength of materials.