I-96 Construction 383e

I-96 Construction  383e

I96 Construction

Posted by Ed Zylik on 2014-09-04 21:05:42

Tagged: , I-96 , Construction

Heavy Construction photos – I-96 Construction 383e – #heavy #construction #photos #pics and #images for you.

I have been crucified with Christ and I no longer live, but Christ lives in me. The life I now live in the body, I live by faith in the Son of God, who loved me and gave himself for me.

ARTBA Announces 2017 Division Award Winners


The American Road & Transportation Builders Association (ARTBA) Sept. 21 recognized transportation design and construction industry leaders with division awards. The association announced the following honorees:Nello L. Teer, Jr.: Bob Burleson, president, Florida Transportation Builders' Association, Tallahassee, Fla….


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I will refresh the weary and satisfy the faint.

Introduction to Soil Compaction


This video defines compaction and explains why it is necessary to compact soils. It outlines the difference between compaction and consolidation and also briefly introduces common equipment used on construction projects.

Videos designed and presented by Declan Phillips PhD P.E. and Alan O Reilly BE and the generous support of the National Forum for Teaching & Learning, the Higher Education Authority and the Department of Education and Skills. For further information of CIVIL@UL

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“Go,” said Jesus, “your faith has healed you.” Immediately he received his sight and followed Jesus along the road.

Huge Natural Disaster Destroying Heavy Equipment Unbelievable To Watch!!


Huge Natural Disaster Destroying Heavy Equipment Unbelievable To Watch!!

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But for that very reason I was shown mercy so that in me, the worst of sinners, Christ Jesus might display his immense patience as an example for those who would believe in him and receive eternal life.

Fed keeps U.S. rates steady, to start portfolio drawdown in October

WASHINGTON (Reuters) – The U.S. Federal Reserve left interest rates unchanged on Wednesday but signaled it still expects one more increase by the end of the year despite a recent bout of low inflation.

The Fed, as expected, also said it would begin in October to reduce its approximately $4.2 trillion in holdings of U.S. Treasury bonds and mortgage-backed securities acquired in the years after the 2008 financial crisis.

New economic projections released after the Fed’s two-day policy meeting showed 11 of 16 officials see the “appropriate” level for the federal funds rate, the central bank’s benchmark interest rate, to be in a range between 1.25 percent and 1.50 percent by the end of 2017, or 0.25 percentage points above the current level.

U.S. bond yields rose, pushing up the U.S. dollar after the Fed’s decision, but U.S. benchmark stock indexes were little changed.

U.S. benchmark 10-year Treasury note yields rose as far as 2.29 percent, the highest since Aug. 8., a move which helped push bank stock prices higher also.

“The Fed took another step on its path of beautiful normalization, announcing that the gradual balance sheet reduction will start next month and limiting revisions to both projections and policy guidance,” said Mohamed El-Erian, Chief Economic Adviser At Allianz, in California.

In its policy statement, the Fed cited low unemployment, growth in business investment, and an economic expansion that has been moderate but durable this year as justifying it’s decision. It added that the near-term risks to the economic outlook remained “roughly balanced” but said it was “closely” watching inflation.

Fed Chair Janet Yellen said in a press conference after the end of the meeting that the fall in inflation this year remained a mystery, adding that the central bank was ready to change the interest rate outlook if needed.

“What we need to figure out is whether the factors that have lowered inflation are likely to prove persistent,” she said. If they do, “it would require an alteration of monetary policy,” Yellen said.

While the interest rate outlook for next year remained largely unchanged in the Fed’s latest projections, with three rises envisioned in 2018, the U.S. central bank did slow the pace of anticipated monetary tightening expected thereafter.

It forecasts only two increases in 2019 and one in 2020. It also lowered again its estimated long-term “neutral” interest rate from 3.0 percent to 2.75 percent, reflecting concerns about overall economic vitality.

“The US Federal Reserve has firmly signaled that a December rate rise is still on the table,” said Luke Bartholomew, of Aberdeen Standard Investments Investment Strategist in London.

”Clearly the Fed still believes that lower unemployment will eventually translate into a pick-up in inflation, but if inflation continues to undershoot it is hard to see the Fed following through on a hike,” he said.

Federal Reserve Chairman Janet Yellen speaks during a news conference after a two-day Federal Open Markets Committee (FOMC) policy meeting, in Washington, U.S., September 20, 2017. REUTERS/Joshua Roberts

FED BOND PORTFOLIO TO SHRINK FROM OCTOBER

The Fed, as expected, also said it would begin in October to reduce its approximately $4.2 trillion in holdings of U.S. Treasury bonds and mortgage-backed securities by initially cutting up to $10 billion each month from the amount of maturing securities it reinvests.

That action will start a gradual reversal of the three rounds of quantitative easing, or bond buying, the Fed pursued between 2008 and 2014 to stimulate economic growth after the 2007-2009 financial crisis and recession.

The limit on reinvestment is scheduled to increase by $10 billion every three months to a maximum of $50 billion per month until the central bank’s overall balance sheet falls by perhaps $1 trillion or more in the coming years.

Yellen said it would take a “a material deterioration” in the economy’s performance for the Fed to reverse a schedule that she expects to proceed “gradually and predictably.”

BALANCING ACT

The policy statement and accompanying projections showed the Fed still in the middle of a balancing act between an economic recovery that has kept U.S. unemployment low and is gaining steam globally and a recent worrying drop in U.S. inflation.

Three of the hawkish policymakers appeared to move their expected policy rate down to account for only one more hike by the end of 2017, leaving a core 11 clustered around a likely December increase. The Fed has raised rates twice this year.

The Fed noted that the recent hurricanes in the United States would affect economic activity but are “unlikely to materially alter the course of the national economy over the medium term.”

Forecasts for economic growth and unemployment into 2018 and beyond were largely unchanged. Gross domestic product is now expected to grow at a rate of 2.4 percent this year, 2.1 percent next year and 2.0 percent in 2019.

The unemployment rate is forecast to remain at 4.3 percent this year before falling to 4.1 percent next year and remaining there in 2019.

Inflation is expected to remain under the Fed’s 2 percent target through 2018 before hitting it in 2019.

There were no dissents in the Fed’s policy decision.

(For a graphic on the legacy of the QE era, click here)

Reporting by Howard Schneider and Ann Saphir; Editing by David Chance and Paul Simao

Our Standards:The Thomson Reuters Trust Principles.

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For what I received I passed on to you as of first importance: that Christ died for our sins according to the Scriptures, that he was buried, that he was raised on the third day according to the Scriptures.

Bobcat Backhoe Attachment | Bobcat Equipment



Full product presentation about the Bobcat Backhoe Attachment.

Transform your Bobcat loader into a powerful, economical and versatile excavator with our backhoe. This tool is ideal for landscaping and nursery work, sewage systems and septic tanks, water and power lines as well as many other jobs. Maximum digging depths vary from 1,5 m to 3,5 m.

Find more information about the Bobcat Backhoe Attachment : http://bit.ly/BobcatBackhoe
Like us on Facebook : http://www.facebook.com/BobcatEquipment
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Best of Biggest R/C Construction Site in the World: Alsfeld, Germany


This is probably the biggest R/C Construction Site in the world, showing awesome RC Trucks. It’s the Alsfeld convention, more than 200 Rc Model fans come together and work with their little machines – just amazing! I hope you’ll like this short video. Best wishes from Germany, BJ 🙂

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He who testifies to these things says, “Yes, I am coming soon.” Amen. Come, Lord Jesus.

Evans Equipment – D11R Rebuild Video



D11R carrier dozer frame built as standard D11R with standard U-Blade.

Evans Equipment, Inc. specializes in rebuilding Caterpillar mining and heavy construction equipment.

For a list of all of our models and machines, visit our website at http://evansequip.com/

If you have any addition questions, please call us at (660) 463-2204 or email us at Sales@evansequip.com

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DeBerardinis Heavy Haul – Rolling CB Interview™


Tag along with Lou DeBerardinis as he picks up a machine in Tampa, Florida headed for the 2014 Wildwood truck show. He’s running a 2006 Peterbilt 379EX / Caterpillar C15 / 550HP / 18 speed / 3.88 gears and a 2012 Detachable Fontaine Magnitude 55 ton Low Boy.

Special thanks to the Florida Department of transportation for allowing filming on premises.

Produced By: Christopher E. Fiffie
Like Big Rig Videos on Facebook – https://www.facebook.com/bigrigvideos

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I cried out to him with my mouth; his praise was on my tongue.

Most amazing heavy equipment, biggest construction equipment, top 5 most biggest machine c



Top 5 Amazing Biggest Machines and Vehicles Compilation 2017, Extreme Heavy Construction Equipment. World’s most amazing machines all modern heavy .

Most amazing heavy equipment, biggest construction equipment, top 5 most biggest machine compilation.

funny momment : The world is beautiful and dangerous, if you want to know more about it, this .

The best heavy machinery in the world, most powerful of snow plowing machine, airport snow removal equipment, airport snow blower, or snow breaking truck, .

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Critical role of nanoparticle transformation discovered — ScienceDaily

Heavy Construction Photos

Scientists at the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) have developed a new electrocatalyst that can directly convert carbon dioxide into multicarbon fuels and alcohols using record-low inputs of energy. The work is the latest in a round of studies coming out of Berkeley Lab tackling the challenge of creating a clean chemical manufacturing system that can put carbon dioxide to good use.

In the new study, published this week in the Proceedings of the National Academy of Sciences (PNAS), a team led by Berkeley Lab scientist Peidong Yang discovered that an electrocatalyst made up of copper nanoparticles provided the conditions necessary to break down carbon dioxide to form ethylene, ethanol, and propanol.

All those products contain two to three carbon atoms, and all are considered high-value products in modern life. Ethylene is the basic ingredient used to make plastic films and bottles as well as polyvinyl chloride (PVC) pipes. Ethanol, commonly made from biomass, has already established its place as a biofuel additive for gasoline. While propanol is a very effective fuel, it is currently too costly to manufacture to be used for that purpose.

To gauge the energy efficiency of the catalyst, scientists consider the thermodynamic potential of products — the amount of energy that can be gained in an electrochemical reaction — and the amount of extra voltage needed above that thermodynamic potential to drive the reaction at sufficient reaction rates. That extra voltage is called the overpotential; the lower the overpotential, the more efficient the catalyst.

“It is now quite common in this field to make catalysts that can produce multicarbon products from CO2, but those processes typically operate at high overpotentials of 1 volt to attain appreciable amounts,” said Yang, a senior faculty scientist at Berkeley Lab’s Materials Sciences Division. “What we are reporting here is much more challenging. We discovered a catalyst for carbon dioxide reduction operating at high current density with a record low overpotential that is about 300 millivolts less than typical electrocatalysts.”

Cube-like copper catalyst

The researchers characterized the electrocatalyst at Berkeley Lab’s Molecular Foundry using a combination of X-ray photoelectron spectroscopy, transmission electron microscopy, and scanning electron microscopy.

The catalyst consisted of tightly packed copper spheres, each about 7 nanometers in diameter, layered on top of carbon paper in a densely packed manner. The researchers found that during the very early period of electrolysis, clusters of nanoparticles fused and transformed into cube-like nanostructures. The cube-like shapes ranged in size from 10 to 40 nanometers.

“It is after this transition that the reactions to form multicarbon products are occurring,” said study lead author Dohyung Kim, a graduate student in Berkeley Lab’s Chemical Sciences Division and at UC Berkeley’s Department of Materials Science and Engineering. “We tried to start off with pre-formed nanoscale copper cubes, but that did not yield significant amounts of multicarbon products. It is this real-time structural change from copper nanospheres to the cube-like structures that is facilitating the formation of multicarbon hydrocarbons and oxygenates.”

Exactly how that is happening is still unclear, said Yang, who is also a professor at UC Berkeley’s Department of Materials Science and Engineering.

“What we know is that this unique structure provides a beneficial chemical environment for CO2 conversion to multicarbon products,” he said. “The cube-like shapes and associated interface may be providing an ideal meeting place where the carbon dioxide, water, and electrons can come together.”

Many paths in the CO2-to-fuel journey

This latest study exemplifies how carbon dioxide reduction has become an increasingly active area in energy research over the past several years. Instead of harnessing the sun’s energy to convert carbon dioxide into plant food, artificial photosynthesis seeks to use the same starting ingredients to produce chemical precursors commonly used in synthetic products as well as fuels like ethanol.

Researchers at Berkeley Lab have taken on various aspects of this challenge, such as controlling the product that comes out of the catalytic reactions. For instance, in 2016, a hybrid semiconductor-bacteria system was developed for the production of acetate from CO2 and sunlight. Earlier this year, another research team used a photocatalyst to convert carbon dioxide almost exclusively to carbon monoxide. More recently, a new catalyst was reported for the effective production of synthesis gas mixtures, or syngas.

Researchers have also worked on increasing the energy efficiency of carbon dioxide reduction so that systems can be scaled up for industrial use.

A recent paper led by Berkeley Lab researchers at the Joint Center for Artificial Photosynthesis leverages fundamental science to show how optimizing each component of an entire system can accomplish the goal of solar-powered fuel production with impressive rates of energy efficiency.

This new PNAS study focuses on the efficiency of the catalyst rather than an entire system, but the researchers point out that the catalyst can be hooked up to a variety of renewable energy sources, including solar cells.

“By utilizing values already established for other components, such as commercial solar cells and electrolyzers, we project electricity-to-product and solar-to-product energy efficiencies up to 24.1 and 4.3 percent for two-to-three carbon products, respectively,” said Kim.

Kim estimates that if this catalyst were incorporated into an electrolyzer as part of a solar fuel system, a material only 10 square centimeters could produce about 1.3 grams of ethylene, 0.8 grams of ethanol, and 0.2 grams of propanol a day.

“With continued improvements in individual components of a solar fuel system, those numbers should keep improving over time,” he said.


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For all have sinned and fall short of the glory of God, and all are justified freely by his grace through the redemption that came by Christ Jesus.

Chemists make playdough/lego-like hybrid to create tiny building blocks — ScienceDaily

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Playdough and Legos are among the most popular childhood building blocks. But what could you use if you wanted to create something really small — a structure less than the width of a human hair?

It turns out, a team of chemists has found, this can be achieved by creating particles that have both playdough and Lego traits.

These “patchy particles,” described in the latest issue of the journal Nature, are 1/200th the width of a human hair and can form endless architectures from a handful of basic pieces. And unlike their larger counterparts, these particles can self-assemble.

“Imagine that you want to build a castle, but instead of handpicking the bricks and patiently connecting them one by one, you simply shake the box of pieces so that they magically connect to one another in forming a full-featured castle,” says Stefano Sacanna, an assistant professor in New York University Department of Chemistry and one of the creators. “These smart particles represent an important step forward for the realization of self-assembling new materials and micro-machinery.”

This process — self-assembly of pre-determined micro-architectures — is similar to the way atomic crystals self-assemble from a specific mixture of atomic building blocks.

“In nature, extremely precise architectures, such as crystals, seamlessly grow from random soups of atoms,” explains Sacanna. “By using similar principles, we can fabricate extremely precise micro-architecture without human intervention.”

“Colloidal self-assembly has the potential to revolutionize 3D printing,” he adds. “This could be achieved by not merely by further reducing the size of the printed architectures, but also by allowing us to ‘print’ functional architectures. Say you want to print a model car — using colloidal self- assembly, you could print a car that is a fraction of a millimetre and that could someday actually run!”

For scientists, however, miniaturization currently presents a formidable challenge.

The direct manipulation of “construction bricks” that are 10 or even 100 times smaller than a human cell is difficult. A more efficient approach is to replicate what Sacanna calls nature’s “manufacturing technology”: self-assembly. This, however, requires the ability to design and manufacture building blocks that knows what to do and where to go.

The technology developed in Sacanna’s lab enables the creation of such microscopic building blocks and impart them with an on-board instruction manual that tells them how to connect with neighboring particles.

“These particles will help us to understand — and allow to mimic — the self-assembling mechanisms that nature uses to generate complexity and functionalities from simple building blocks,” he says.

Sacanna and his colleague Gi-Ra Yi, a professor in the School of Chemical Engineering at Sungkyunkwan University (SKKU) in Suwon, South Korea, together with NYU graduate students Zhe Gong and Theodore Hueckel, created these patchy particles via a new synthetic methodology called “colloidal fusion,” which is not unlike how different pieces of playdough are pieced together.

While playdough involves squeezing together different colors of clay, colloidal fusion merges different chemical functionalities to create multi-functional — as opposed to multi-colored — particles that also contain instructions for self-assembly. This process is achieved by deploying software — called “Surface Evolver” — that is a simulation package similar to the software engineers use to design buildings.

“The software allows us to predict how an initial cluster will evolve when ‘squeezed’ and how the resulting multifunctional patchy particle will look like,” notes Sacanna.

The research was supported by a CAREER Award from the National Science Foundation.


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I give them eternal life, and they shall never perish; no one will snatch them out of my hand. My Father, who has given them to me, is greater than all; no one can snatch them out of my Father’s hand. I and the Father are one.