Eric Nixon scite author profile

The paper provides an informal account of CPL, a new programming language currently being implemented for the Titan at Cambridge and the Atlas at London University. CPL is based on, and contains the concepts of, ALGOL 60. In addition there are extended data descriptions, command and expression structures, provision for manipulating non-numerical objects, and comprehensive input-output facilities. However, CPL is not just another proposal for the extension of ALGOL 60, but has been designed from first principles and has a logically coherent structure.

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Effect of a superhydrophobic coating on the combustion of aluminium and iron oxide nanothermites

Nixon

Pantoya

Sivakumar

et al. 2011

Surface and Coatings Technology

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A diagnostic for quantifying heat flux from a thermite spray

Nixon

Pantoya

Prentice

et al. 2010

Meas. Sci. Technol.

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Characterizing the combustion behaviors of energetic materials requires diagnostic tools that are often not readily or commercially available. For example, a jet of thermite spray provides a high temperature and pressure reaction that can also be highly corrosive and promote undesirable conditions for the survivability of any sensor. Developing a diagnostic to quantify heat flux from a thermite spray is the objective of this study. Quick response sensors such as thin film heat flux sensors cannot survive the harsh conditions of the spray, but more rugged sensors lack the response time for the resolution desired. A sensor that will allow for adequate response time while surviving the entire test duration was constructed. The sensor outputs interior temperatures of the probes at known locations and utilizes an inverse heat conduction code to calculate heat flux values. The details of this device are discussed and illustrated. Temperature and heat flux measurements of various thermite sprays are reported. Results indicate that this newly designed heat flux sensor provides quantitative data with good repeatability suitable for characterizing energetic material combustion.

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Table of Percentage Points of Pearson Curves, for Given √β 1 and β 2 , Expressed in Standard Measure

Johnson¹,

Nixon²,

Amos³

et al. 1963

Biometrika

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Eric Nixon

Table of percentage points of Pearson curves, for given √β₁ and β₂, expressed in standard measure

The Main Features of CPL

Effect of a superhydrophobic coating on the combustion of aluminium and iron oxide nanothermites

A diagnostic for quantifying heat flux from a thermite spray

Table of Percentage Points of Pearson Curves, for Given √β 1 and β 2 , Expressed in Standard Measure

Contact Info

Product

Resources

About

Eric Nixon

Table of percentage points of Pearson curves, for given √β1 and β2, expressed in standard measure

The Main Features of CPL

Effect of a superhydrophobic coating on the combustion of aluminium and iron oxide nanothermites

A diagnostic for quantifying heat flux from a thermite spray

Table of Percentage Points of Pearson Curves, for Given √β 1 and β 2 , Expressed in Standard Measure

Contact Info

Product

Resources

About

Table of percentage points of Pearson curves, for given √β₁ and β₂, expressed in standard measure