«In all these works, Warhol minimized the touch of the artist's hand by
using mechanical production and a standardized or repetitive format,» said Ahn.
Not exact matches
This is the result of higher energy input for
mechanical measures like weed control in organic
production and of lower mineral N - fertilization
use in conventional
production.
This is necessary so that years of testing data on oats produced under a purity protocol can be compared to testing data on oats «cleaned» at the end of the
production process
using mechanical sorting.
The company is
using regular oats cleaned at the «end» of
production via
mechanical separation.
At this time we do not support the
use of regular oats that are cleaned at the «end» of
production via
mechanical and / or optical sorting to be «gluten - free.»
The blanket features fine openwork pattern that can only be knitted
using a small number of
mechanical devices on Disana's
production line.
The fine openwork pattern can only be knitted
using a small number of
mechanical devices on the Disana family's
production line.
Researchers at the San Diego Supercomputer Center at the University of California, San Diego, have developed software that greatly expands the types of multi-scale QM / MM (mixed quantum and molecular
mechanical) simulations of complex chemical systems that scientists can
use to design new drugs, better chemicals, or improved enzymes for biofuels
production.
Because of the excellent
mechanical flexibility of graphene and the convenient preparation of the devices, this invention can be
used for the mass
production of the semitransparent perovskite solar cells with printing or roll to roll process.
This Active Tourer MPV wants to be more stable than a BMW M3, and
using the Dante Giacosa - pattern front - wheel - drive layout compacts the
mechanicals and saves space for people in the reduced overall length of what will surely become a
production 1 - series tall - sedan crossover.
Some are lightly disguised future
production vehicles, while others exhibit an environmentally friendly theme.Here's a look at a few of the more interesting concept vehicles on display at the show, which closes Monday: AUDI ALLROAD QUATTROThe German automaker has been building all - wheel drive cars for years, so it's no surprise that a beefier version of the A6 station wagon is on the way.The Allroad Quattro show car
uses many of the same
mechanical and suspension parts as the A6 wagon but wears a sport - utility wagon body complete with large fender flares and huge tires.
The key to keeping costs down, Kimber discovered, was to
use tried and true
mechanical components from regular
production cars - a formula
used to this day.
Codenamed Project P, it was modified and developed from a pre-
production version of the Civic,
using the same
mechanicals as the
production Type R.
Aside from these changes, the race vehicle competed
using almost the same Plug - in Hybrid Electric Vehicle (PHEV) powertrain and
mechanical parts as the standard
production model.
The electrics and
mechanicals are all tried and tested - the petrol engine is based on the same unit the firm
used in its rally cars - while the hybrid drive system will have been extensively tested before being put into
production.
The editor of Road & Track asserted that front - wheel drive, as well as a transverse mid-engined configuration, were among «various
mechanical layouts... tossed around by the idea people at AMC,» adding that «it's unlikely they ever had much hope of being able to produce anything other than their traditional front engine and rear drive,
using components already in
production.»
The
production technologies are creating new standards for manufacturers worldwide as they join parts
using mechanical and thermal processes.
The traditional system of «milpa» (shifting cultivation) involves the annual clearing of new land for crop
production; however, there is an increasing number of farmers making permanent
use of cleared land by
mechanical means.
Impressed by this idea was none other than Marcel Duchamp, father of one of the greatest revolutionary movements Dada, that soon adopted the
use of
mechanical movement in his
production, but not before he added a twist of his own to the understanding of sculpture, by introducing his concept of the readymades.
While these fuels may have brought into the
production process primarily to increase profits for the owners of a business, the
mechanical work of machines has had secondary benefits for workers especially with the advent of consumer durables and Fordism, the ability of those in the lower middle and working classes to afford major energy
using devices like automobiles.
Having identified a design, and
used Aurora's design validation function to ensure that there were no electrical or
mechanical errors (such as invalid stringing configurations, module overlap, or setback violations), we proceeded to look at the energy
production and resulting bill savings of the proposed system.
CNC Machine Operator Job Description Example The CNC machine operator is a person who creates a model for various computer programs that aids the functioning of the
mechanical device in drilling, shaping and cutting materials
used for
production in industries.
Produce models
used to present new conceptual designs to the executive management and validate
mechanical designs prior to committing to
production tooling.
• Set up
production equipment at the beginning of each shift to suit the type of
production process to be managed • Calibrate
production equipment to ensure appropriate
production processes • Measure and mix ingredients and put them into
production equipment for processing purposes • Clean and maintaining measuring instruments and equipment and ensure that any
mechanical problems are timely sorted out • Document nonconformance and dispositions by
using set quality control methods • Assemble goods on the
production line and ensure that products are finished according to set protocols • Separate different items and ensure that they are loaded into the
production equipment in the appropriate sequence • Pack and label end product according to company protocols and ensure that it is stored properly • Perform preventative maintenance on
production equipment and tools
Summary
Mechanical Engineer with experience in Design and Manufacturing
using modelling and analysis software, and minor as Industrial
Production Engineering.
Lead
Mechanical Engineer — Josyth Company — Huntsville, Alabama — September 2009 — Present • Supervise design team of 12 members, completing product, parts, and component design for manufacturing equipment • Evaluate and test designs produced by the team before approving them for
use • Review technical documents before approving them for
use in - house • Confer with supervisors and team members to resolve design, operational, and collaborative problems • Approve design models, ensuring that they are in compliance, saving $ 700,000 by reducing number of flaws in subassembly and models before
production • Create and evaluate prototypes to ensure optimal performance
• Exceptional
mechanical aptitude aimed at controlling and operating complex machinery • Deep technical knowledge of CAD / CAM technology and how it is
used for machine operations • Great physical stamina and dexterity to perform repetitive work activities and movements • Well - versed in reading and interpreting blueprints with a view to understand machine schematics and models • Demonstrated ability to learn new machine operations and adjust machine parts to meet specific instructions • Capable of working in a high noise environment • Able to monitor and assess performance of machinery and make needed adjustments • Proven ability to perform quality control analysis by conducting tests and inspections • Exceptional time management skills aimed at ensuring that machine operations are carried out in a time efficient manner • Excellent judgment and decision making skills; ability to consider costs and benefits of optimal machine operations • Critical thinking abilities aimed at identifying alternative solutions to machine operation problems • Complex problem solving skills targeted at evaluating possible machine operational issues • Able to plan, organize and schedule machine operations in sync with
production agendas • Track record of prioritizing work activities in accordance to scheduled operating precedence • Skilled at dismantling, repairing and maintaining equipment • Knowledge of operating hand and power tools
used in the
production trade
SUMMARY More than fifteen years of schematic capture and printed circuit board (PCB) design utilizing Altium Designer, and
mechanical 2D drafting and 3D modeling
using AutoCAD and Alibre / GeoMagic, with training in AutoDesk Inventor and SolidWorks, as well as experience in all facets of design from the conceptual stage through prototype development, assembly and testing,
production and manufacturing support, and project mana...
Seeking operator position with ABC company in order to put various
mechanical and
production skills to good
use.
Put your
mechanical expertise to good
use making a difference in our textile
production company.
Over 135 projects released to
production (12 years) as international cross-functional design / drafting
mechanical engineer
using Solid Works 2009 - 2015, (7,500 hours), Pro / Engineering WF - 2 / 3, (over 7,500 hours), and AutoCAD 12 / 2000/2009 (2,500 hours) for heavy industrial equipment and automotive, oil equipment, and custom body projects.
Professional Duties & Responsibilities Biomedical and biotechnology engineer with background in design of biomaterials, biosensors, drug delivery devices, microfrabrication, and tissue engineering Working knowledge of direct cell writing and rapid prototyping Experience fabricating nanocomposite hydrogel scaffolds Proficient in material analysis,
mechanical, biochemical, and morphological testing of synthetic and biological materials Extensive experience in bio-imaging processes and procedures Specialized in mammalian, microbial, and viral cell culture Working knowledge of lab techniques and instruments including electrophoresis, chromatography, microscopy, spectroscopy, PCR, Flow cytometery, protein assay, DNA isolation techniques, polymer synthesis and characterization, and synthetic fiber
production Developed strong knowledge of FDA, GLP, GMP, GCP, and GDP regulatory requirements Created biocompatible photocurable hydrogels for cell immobilization Formulated cell friendly prepolymer formulation Performed surface modification of nano - particle fillers to enhance their biocompatibility Evaluated cell and biomaterial interaction, cell growth, and proliferation Designed bench - top experiments and protocols to simulate in vivo situations Designed hydrogel based microfluidic prototypes for cell entrapment and cell culture utilizing computer - aided robotic dispenser Determined various
mechanical, morphological, and transport properties of photocured hydrogels
using Instron, FTIR, EDX, X-ray diffraction, DSC, TGA, and DMA Assessed biocompatibility of hydrogels and physiology of entrapped cells Evaluated intracellular and extracellular reactions of entrapped cells on spatial and temporal scales
using optical, confocal, fluorescence, atomic force, and scanning electron microscopies Designed various biochemical assays Developed thermosensitive PET membranes for transdermal drug delivery application
using Gamma radiation induced graft co-polymerization of N - isopropyl acylamide and Acrylic acid Characterized grafted co-polymer
using various polymer characterization techniques Manipulated lower critical solution temperature of grafted thermosensitive co-polymer Loaded antibiotic on grafted co-polymer and determined drug release profile with temperature Determined biomechanical and biochemical properties of biological gels isolated from marine organisms Analyzed morphological and
mechanical properties of metal coated yarns
using SEM and Instron Performed analytical work on pharmaceutical formulations
using gas and high performance liquid chromatography Performed market research and analysis for medical textile company Developed and implement comprehensive marketing and sales campaign
Long Airdox (Pulaski, VA) 1987 — 1997 Supervisor / Superintendent of Quality &
Production • Oversaw daily operations, quality assurance, and production personnel of heavy mining equipment company • Responsible for 4 burners, 2 saws, 1 drill operator, and Class 8 truck painting team • Inspected electrical, hydraulic, and mechanical mining components ensuring OSHA compliance • Proficient in use of Level II Ultrasonic NDT Testing — USK — 7S Scope • Performed Opti - Line laser alignment of shafts, reducers, and motors • Designed and programmed CAD / CAM for CNC Burner, Plasma Head, and P
Production • Oversaw daily operations, quality assurance, and
production personnel of heavy mining equipment company • Responsible for 4 burners, 2 saws, 1 drill operator, and Class 8 truck painting team • Inspected electrical, hydraulic, and mechanical mining components ensuring OSHA compliance • Proficient in use of Level II Ultrasonic NDT Testing — USK — 7S Scope • Performed Opti - Line laser alignment of shafts, reducers, and motors • Designed and programmed CAD / CAM for CNC Burner, Plasma Head, and P
production personnel of heavy mining equipment company • Responsible for 4 burners, 2 saws, 1 drill operator, and Class 8 truck painting team • Inspected electrical, hydraulic, and
mechanical mining components ensuring OSHA compliance • Proficient in
use of Level II Ultrasonic NDT Testing — USK — 7S Scope • Performed Opti - Line laser alignment of shafts, reducers, and motors • Designed and programmed CAD / CAM for CNC Burner, Plasma Head, and Punch Press