Cracks, bumps, and potholes are on every roads and highways that our tires ride over every day. But, have you ever noticed that some cracks and potholes for more often on certain roads? That’s because there are two types of pavements; asphalt and concrete pavement. And they are made up of different materials and sustain differently.
Roads and highways are used constantly for access and mobility. The Encyclopedia Americana by Grolier stated back in historical time of the early Christian era, trails were used as routes from Rome to China by caravans to freight animals (Grolier, para 4). Even though trails were used then, it wasn’t till 1990 when automobile was invented and was considered the beginning of modern highway.
Here in Utah we see a lot of asphalt paving, which goes for the United States as well. About 80 percent of that use is for highways, airports, school playgrounds, and other paving. The first use of asphalt street paving began in the 1800s for Pitch Lake in Trinidad and the Bermudez deposit in Venezuela (Grolier, Asphalt para 6). That had an influence for the United States to use asphalt for street paving. In the early 1870s United States laid pavement in front of the city hall in Newark, New Jersey. Before asphalt was used for street paving, its main purpose made reservoirs, canals, and bathing pools watertight. Also, as early as 3800 B.C. it was used as mortar for building stones and paving blocks (Grolier, Asphalt para 1).
Asphalt are black and dark brown solid or semisolid cementitious materials that gradually liquefy when heated. The main constituents are bitumens that occur in nature are obtained by refining petroleum (Grolier, Asphalt para 8). With this paving material, asphalt actually paves about 90 percent of the United States city roads and almost all secondary roads (Grolier, Asphalt para 14). Asphalt is widely used in the United States due to its durability, the smooth sailing ride, and the fast past of construction and maintenance it provides.
Before laying down any type of pavement, there has to be consideration for volume of traffic, speed, and capacity. For highway capacity, the maximum number of vehicles that can be expected to pass a given point over a given period of time is usually expressed as vehicle per hour. Under ideal conditions, one freeway lane can accommodate about 2,000 passenger cars per hour. A two-lane road can carry up to 1,000 passenger cars per hour in each direction. So, there is a relationship between vehicle speed and highway capacity. As the volume of traffic approaches capacity, average speed is reduced. With speeds in the 30-40 miles per hour range, a highway typically has reached it capacity (Grolier para 6). With the design of freeways there are on and off ramps, keeping traffic off the freeways. The same concept is used for city roads. Having intersections with traffic lights controls the road capacity.
Just like a casserole dish or a pie, the structure for roads and highways have layers; three layers. First, is the subgrade, which is the earth beneath the road. For this process it needs to be graded, compacted, and stabilized. The second layer usually holds most of the traffic weight, which is the base course. The base course is laid over the subgrade and should be several inches thick for binding the material. The final layer is what we see and drive on, the pavement or the wearing course. For t his layer, asphalt or concrete pavement may be used, sometimes there isn’t a final layer.
With the structure of layers in mind, the actual asphalt paving is done with a machine that spreads the asphalt down evenly and with vibration it slightly compact the material down. But, the actual compaction is down with huge rollers. The final thickness of the asphalt with compaction rages anywhere from 2 to 12 inches depending on how of the road is used (Grolier, para 21). The thickness of the asphalt pavement is a tough and flexible finish that’s about to suppose the weight of traffic.
Only 12 inches deep, asphalt roads is occupied by hundreds and thousands of motorist ever day commuting to work, school, and many other traveling reasons. With the traffic weight on these roads it is bound to have road damage. The most common damages the roads posses are cracks and pot holes. Like most material and products, wear and tear causes
Tuesday, April 27, 2010
Wednesday, April 21, 2010
Research Journal - 1st Draft part 2
Cracks, bumps, and potholes are on every roads and highways that our tires ride over every day. But, have you ever noticed that some cracks and potholes for more often on certain roads? That’s because there are two types of pavements; asphalt and concrete pavement. And they are made up of different materials and sustain differently.
Roads and highways are used constantly for access and mobility. The Encyclopedia Americana by Grolier stated back in historical time of the early Christian era, trails were used as routes from Rome to China by caravans to freight animals (Grolier, para 4). Even though trails were used then, it wasn’t till 1990 when automobile was invented and was considered the beginning of modern highway.
Here in Utah we see a lot of asphalt paving, which goes for the United States as well. About 80 percent of that use is for highways, airports, school playgrounds, and other paving. The first use of asphalt street paving began in the 1800s for Pitch Lake in Trinidad and the Bermudez deposit in Venezuela (Grolier, Asphalt para 6). That had an influence for the United States to use asphalt for street paving. In the early 1870s United States laid pavement in front of the city hall in Newark, New Jersey. Before asphalt was used for street paving, its main purpose made reservoirs, canals, and bathing pools watertight. Also, as early as 3800 B.C. it was used as mortar for building stones and paving blocks (Grolier, Asphalt para 1).
Asphalt are black and dark brown solid or semisolid cementitious materials that gradually liquefy when heated. The main constituents are bitumens that occur in nature are obtained by refining petroleum (Grolier, Asphalt para 8). With this paving material, asphalt actually paves about 90 percent of the United States city roads and almost all secondary roads. Asphalt is widely used in the United States due to its durability, the smooth sailing ride, and the fast past of construction and maintenance it provides.
Before laying down any type of pavement, there has to be consideration for volume of traffic, speed, and capacity. For highway capacity, the maximum number of vehicles that can be expected to pass a given point over a given period of time is usually expressed as vehicle per hour. Under ideal conditions, one freeway lane can accommodate about 2,000 passenger cars per hour. A two-lane road can carry up to 1,000 passenger cars per hour in each direction. So, there is a relationship between vehicle speed and highway capacity. As the volume of traffic approaches capacity, average speed is reduced. With speeds in the 30-40 miles per hour range, a highway typically has reached it capacity (Grolier para 6). With the design of freeways there are on and off ramps, keeping traffic off the freeways. The same concept is used for city roads. Having intersections with traffic lights controls the road capacity.
Just like a casserole dish or a pie, the structure for roads and highways have layers; three layers. First, is the subgrade, which is the earth beneath the road. For this process it needs to be graded, compacted, and stabilized. The second layer usually holds most of the traffic weight, which is the base course. The base course is laid over the subgrade and should be several inches thick for binding the material. The final layer is what we see and drive on, the pavement or the wearing course. For t his layer, asphalt or concrete pavement may be used, sometimes there isn’t a final layer.
With the structure of layers in mind, the actual asphalt paving is done with a machine that spreads the asphalt down evenly and with vibration it slightly compact the material down. But, the actual compaction is down with huge rollers. The final thickness of the asphalt with compaction rages anywhere from 2 to 12 inches depending on how of the road is used.
Roads and highways are used constantly for access and mobility. The Encyclopedia Americana by Grolier stated back in historical time of the early Christian era, trails were used as routes from Rome to China by caravans to freight animals (Grolier, para 4). Even though trails were used then, it wasn’t till 1990 when automobile was invented and was considered the beginning of modern highway.
Here in Utah we see a lot of asphalt paving, which goes for the United States as well. About 80 percent of that use is for highways, airports, school playgrounds, and other paving. The first use of asphalt street paving began in the 1800s for Pitch Lake in Trinidad and the Bermudez deposit in Venezuela (Grolier, Asphalt para 6). That had an influence for the United States to use asphalt for street paving. In the early 1870s United States laid pavement in front of the city hall in Newark, New Jersey. Before asphalt was used for street paving, its main purpose made reservoirs, canals, and bathing pools watertight. Also, as early as 3800 B.C. it was used as mortar for building stones and paving blocks (Grolier, Asphalt para 1).
Asphalt are black and dark brown solid or semisolid cementitious materials that gradually liquefy when heated. The main constituents are bitumens that occur in nature are obtained by refining petroleum (Grolier, Asphalt para 8). With this paving material, asphalt actually paves about 90 percent of the United States city roads and almost all secondary roads. Asphalt is widely used in the United States due to its durability, the smooth sailing ride, and the fast past of construction and maintenance it provides.
Before laying down any type of pavement, there has to be consideration for volume of traffic, speed, and capacity. For highway capacity, the maximum number of vehicles that can be expected to pass a given point over a given period of time is usually expressed as vehicle per hour. Under ideal conditions, one freeway lane can accommodate about 2,000 passenger cars per hour. A two-lane road can carry up to 1,000 passenger cars per hour in each direction. So, there is a relationship between vehicle speed and highway capacity. As the volume of traffic approaches capacity, average speed is reduced. With speeds in the 30-40 miles per hour range, a highway typically has reached it capacity (Grolier para 6). With the design of freeways there are on and off ramps, keeping traffic off the freeways. The same concept is used for city roads. Having intersections with traffic lights controls the road capacity.
Just like a casserole dish or a pie, the structure for roads and highways have layers; three layers. First, is the subgrade, which is the earth beneath the road. For this process it needs to be graded, compacted, and stabilized. The second layer usually holds most of the traffic weight, which is the base course. The base course is laid over the subgrade and should be several inches thick for binding the material. The final layer is what we see and drive on, the pavement or the wearing course. For t his layer, asphalt or concrete pavement may be used, sometimes there isn’t a final layer.
With the structure of layers in mind, the actual asphalt paving is done with a machine that spreads the asphalt down evenly and with vibration it slightly compact the material down. But, the actual compaction is down with huge rollers. The final thickness of the asphalt with compaction rages anywhere from 2 to 12 inches depending on how of the road is used.
Monday, April 19, 2010
Research Journal - 1st Draft
Cracks, bumps, and potholes are on every roads and highways that our tires ride over every day. But, have you ever noticed that some cracks and potholes for more often on certain roads? That’s because there are two types of pavements; asphalt and concrete pavement. And they are made up of different materials and sustain differently.
Roads and highways are used constantly for access and mobility. The Encyclopedia Americana by Grolier stated back in historical time of the early Christian era, trails were used as routes from Rome to China by caravans to freight animals (Grolier, para 4). Even though trails were used then, it wasn’t till 1990 when automobile was invented and was considered the beginning of modern highway.
Here in Utah we see a lot of asphalt paving, which goes for the United States as well. About 80 percent of that use is for highways, airports, school playgrounds, and other paving. The first use of asphalt street paving began in the 1800s for Pitch Lake in Trinidad and the Bermudez deposit in Venezuela (Grolier, Asphalt para 6). That had an influence for the United States to use asphalt for street paving. In the early 1870s United States laid pavement in front of the city hall in Newark, New Jersey.
Roads and highways are used constantly for access and mobility. The Encyclopedia Americana by Grolier stated back in historical time of the early Christian era, trails were used as routes from Rome to China by caravans to freight animals (Grolier, para 4). Even though trails were used then, it wasn’t till 1990 when automobile was invented and was considered the beginning of modern highway.
Here in Utah we see a lot of asphalt paving, which goes for the United States as well. About 80 percent of that use is for highways, airports, school playgrounds, and other paving. The first use of asphalt street paving began in the 1800s for Pitch Lake in Trinidad and the Bermudez deposit in Venezuela (Grolier, Asphalt para 6). That had an influence for the United States to use asphalt for street paving. In the early 1870s United States laid pavement in front of the city hall in Newark, New Jersey.
Wednesday, April 14, 2010
Multiple Perspectives Free Write-Student Choice 4
Multiple Perspective:
Asphalt pavement was first used in the US around 1870. It was considered to be cheap and easy labor. Even though it breaks down faster during the winter and spring time. Asphalt pavement provide us with a smooth and quiet ride. And if there is any work need to be done, asphalt is the way to fix it since it can be easily done and in a short amount of time. But compared with concrete pavement, it doesnt stand a chance, since concrete pavement is more durable and its life expectance is 30-40 year, even longer up to 100 years. Unlike asphalt it is made with better quality material and it also has reinforcement when being poured in sections on slabs. Since concrete pavement doesnt break down like asphalt, creating pot holes it wouldnt need to be filled up all the time with money that comes from tax payers, or would car owners have to take their vehicle into the shop getting there car fixed due to pots.
Student Choice 4-Free Write
Potholes are everywhere and come in different sizes and can only be fixed when it reaches 8 inches wide. With that in mind people driving over these holes are not seeing it causing sever damage to there vehicle such as alignment, tire balance, stuts...it can also be very expensive to fix due to the part that need to be bought and the labor that needs to be done. Pot holes usualy form during winter and spring time when the snow melts and seeps into the bottom of the pavement and starts eating it away. Asphalt, when in the process of deteriorating it breaks off by traffic volume and weight thats put on it and it starts chipping away. Asphalt pavement only last up to 5-7 years compared with concrete pavement it last up to 30-40 years because concrete is made up of... and when laid out it is reinforced with metal and steel bars.
Asphalt pavement was first used in the US around 1870. It was considered to be cheap and easy labor. Even though it breaks down faster during the winter and spring time. Asphalt pavement provide us with a smooth and quiet ride. And if there is any work need to be done, asphalt is the way to fix it since it can be easily done and in a short amount of time. But compared with concrete pavement, it doesnt stand a chance, since concrete pavement is more durable and its life expectance is 30-40 year, even longer up to 100 years. Unlike asphalt it is made with better quality material and it also has reinforcement when being poured in sections on slabs. Since concrete pavement doesnt break down like asphalt, creating pot holes it wouldnt need to be filled up all the time with money that comes from tax payers, or would car owners have to take their vehicle into the shop getting there car fixed due to pots.
Student Choice 4-Free Write
Potholes are everywhere and come in different sizes and can only be fixed when it reaches 8 inches wide. With that in mind people driving over these holes are not seeing it causing sever damage to there vehicle such as alignment, tire balance, stuts...it can also be very expensive to fix due to the part that need to be bought and the labor that needs to be done. Pot holes usualy form during winter and spring time when the snow melts and seeps into the bottom of the pavement and starts eating it away. Asphalt, when in the process of deteriorating it breaks off by traffic volume and weight thats put on it and it starts chipping away. Asphalt pavement only last up to 5-7 years compared with concrete pavement it last up to 30-40 years because concrete is made up of... and when laid out it is reinforced with metal and steel bars.
Monday, April 12, 2010
Research Journal - Entry 5 and Student Choice 3
Annotated Bibliography 5:
-Cite
Brock,Ed."Science paves the roads of the future."American City & County 121.8 (2006): 20-22. Academic Search Premier. EBSCO. Web. 7 Apr. 2010.
-Summary
Assertion-A variety of new paving materials and methods in asphalt and concfrete are available to meet the demand for new road construction.
Traffic conditions are getting worse and the Federal Highway Administration has recommended increasing highway capacity and widening local arterial roads. Two new form of asphalt, Stone Mix asphalt (SMA) and rubberized. SMA is an open-grade mix that consist of large stone aggregate combined with sand, asphalt, and fiber. Making a tough and durable surface. SMA doe cost more than regular mixes but the life span on it should range from 12-15 years than 7-10 years. Rubberized asphalt has pieces of recycled tire rubber that absorb sound and reduces surface damage caused by heat and cold. Concrete is durable and has a long life span. It is a common pavement in states with high traffic volume, particularly in the Midwest. Concrete life is 30-40 years, but some almost 100 years old. Its low maintenance. Dowel and metal bar distribute weight load through slbs on heavily trafficked concrete highways, increases road life and reduces noise.
-Reaction
Found information about how long concrete and asphalt last. I will use that in my paper. Also, the reinforcement of concrete.
Student Choice 3-Annotated Bibliography:
-Cite
Elena Baca, Maria. "Where the rubber meets the (hole in the) road: Potholes in pavement are feasting on our cars, turning tires and suspensions into heaps of automotive trash." Star Tribune (Minneapolis, MN) 05 Apr. 2010: Newspaper Source. EBSCO. Web. 7 Apr. 2010.
-Summary
Assertion-Bulding tires, cracked rims, broken springs.
Potholes causes damages to car and is expensive to repair. For '97 Honda Accord; shocks, struts, realighment, engine mounts estimated cost about $1,500. For 2006 Mazda rims, replacing all four cost as much as $300. In general broken stabilizer, bent wheels, and broekn axle can cost $700 to repair. Some new cars arent designed to take potholes to well because of large rims and low-profile "performance" tires. Compared with standard tires with 6-8 inches sidewall, these have 2-4 inches, said Mitch Mullenbach, a technician at Paul Williams Tire in Minneapolis. Not follwing maufactures' inflation guidelines can ruin tires. Over inflated tires can maximize gas mileage but having it over or underinflation is dangerous as well.
-Reaction
Information isnt to specific, but cost of repair on parts was good since I couldnt find prices for those repairs. Could be because of different types of vehicle cost could be less or more, also cost for labor.
-Cite
Brock,Ed."Science paves the roads of the future."American City & County 121.8 (2006): 20-22. Academic Search Premier. EBSCO. Web. 7 Apr. 2010.
-Summary
Assertion-A variety of new paving materials and methods in asphalt and concfrete are available to meet the demand for new road construction.
Traffic conditions are getting worse and the Federal Highway Administration has recommended increasing highway capacity and widening local arterial roads. Two new form of asphalt, Stone Mix asphalt (SMA) and rubberized. SMA is an open-grade mix that consist of large stone aggregate combined with sand, asphalt, and fiber. Making a tough and durable surface. SMA doe cost more than regular mixes but the life span on it should range from 12-15 years than 7-10 years. Rubberized asphalt has pieces of recycled tire rubber that absorb sound and reduces surface damage caused by heat and cold. Concrete is durable and has a long life span. It is a common pavement in states with high traffic volume, particularly in the Midwest. Concrete life is 30-40 years, but some almost 100 years old. Its low maintenance. Dowel and metal bar distribute weight load through slbs on heavily trafficked concrete highways, increases road life and reduces noise.
-Reaction
Found information about how long concrete and asphalt last. I will use that in my paper. Also, the reinforcement of concrete.
Student Choice 3-Annotated Bibliography:
-Cite
Elena Baca, Maria. "Where the rubber meets the (hole in the) road: Potholes in pavement are feasting on our cars, turning tires and suspensions into heaps of automotive trash." Star Tribune (Minneapolis, MN) 05 Apr. 2010: Newspaper Source. EBSCO. Web. 7 Apr. 2010.
-Summary
Assertion-Bulding tires, cracked rims, broken springs.
Potholes causes damages to car and is expensive to repair. For '97 Honda Accord; shocks, struts, realighment, engine mounts estimated cost about $1,500. For 2006 Mazda rims, replacing all four cost as much as $300. In general broken stabilizer, bent wheels, and broekn axle can cost $700 to repair. Some new cars arent designed to take potholes to well because of large rims and low-profile "performance" tires. Compared with standard tires with 6-8 inches sidewall, these have 2-4 inches, said Mitch Mullenbach, a technician at Paul Williams Tire in Minneapolis. Not follwing maufactures' inflation guidelines can ruin tires. Over inflated tires can maximize gas mileage but having it over or underinflation is dangerous as well.
-Reaction
Information isnt to specific, but cost of repair on parts was good since I couldnt find prices for those repairs. Could be because of different types of vehicle cost could be less or more, also cost for labor.
Monday, April 5, 2010
Research Journal-Entry 4 and 2 Student Choice
Annotated Bibliography 4:
-Cite
Potholes and Potholes Ranger. Seattle.gov. Department of Transportation, Dec. 2009. Web. 04 Apr. 2010.
-Summary
Assertion-Regardless of weather, potholes are a symptom of pavement that is wearing out.
Potholes occur most often during spring and winter, following periods of cold temperatures and rain or snow. Weight of traffic can increase potholes. Potholes are temporary fixes. For longer-term solution is to re-pave the street. Material used to fill potholes doesnt stick well to surrounding pavement when cold or wet. Repairs made in the winter may not last longer than on dry, warm pavement. Water and traffic cracks and breaks pavements. Water gets under the pavement and cracks, this could erode the material used under the pavement. Water under pavement can freeze and expand, and thaw and conctract during winter time.
-Reaction
Great information. Will use in my paper.
Student Choice 1-Annoated Bibliography:
-Cite
Potholes. Clermontengineer.org. Clermont County. n.d. Web. 04 Apr. 2010.
-Summary
Assertion- An important part of road maintenace is the repair of potholes.
When moisture gets into pavement, freezing, expanding, and then thawing. This weakensthe pavement and causes potholes. Traffic then loosen more pavement then it crumbles and pops out. General criteria for repair is a hole in the pavement that is 2 inches or more deep and over 8 inches in diameter. During winter, potholes are temporarily repaired with cold asphalt mix because manufacturers of hot asphalt are closed. Road repair comes first to high volume and high speeh routes and to access for emergency. Second, is to schools and commercial business. Third priority roads are low volume rural routes. Potholes could cause accidents, damage car's tires, wheels, shocks, struts, and springs.
-Reaction
This is good additional information about potholes. Found out what size a potholes has to be before getting repaired. I would like to know more in depth about damages that can be done to cars.
Student Choice 2-Free Writing
I have collected a lot of information on concrete pavement and asphalt pavement. Purpose of roads and highways is for access and mobility. Back in historic time, Rome and China had trails used by caravans to frieght animals. But concidering modern history, highways began when automotive was introduced in the 1900's.
There is too much information, information over-load here! Im going to try to outline my paper. Hopefully it will narrow down some information of the research I to use. First, I like to state my proposal. Then, reflect back on history of roads, when they were used and why. Followed by history of concrete and asphalt use. Also, showing what the material is made of. Pros and cons of the pavement. Damages dont to asphalt road vs concrete. Such as more potholes and damages of cars due to potholes. Maybe some stats if possible.
-Cite
Potholes and Potholes Ranger. Seattle.gov. Department of Transportation, Dec. 2009. Web. 04 Apr. 2010.
-Summary
Assertion-Regardless of weather, potholes are a symptom of pavement that is wearing out.
Potholes occur most often during spring and winter, following periods of cold temperatures and rain or snow. Weight of traffic can increase potholes. Potholes are temporary fixes. For longer-term solution is to re-pave the street. Material used to fill potholes doesnt stick well to surrounding pavement when cold or wet. Repairs made in the winter may not last longer than on dry, warm pavement. Water and traffic cracks and breaks pavements. Water gets under the pavement and cracks, this could erode the material used under the pavement. Water under pavement can freeze and expand, and thaw and conctract during winter time.
-Reaction
Great information. Will use in my paper.
Student Choice 1-Annoated Bibliography:
-Cite
Potholes. Clermontengineer.org. Clermont County. n.d. Web. 04 Apr. 2010.
-Summary
Assertion- An important part of road maintenace is the repair of potholes.
When moisture gets into pavement, freezing, expanding, and then thawing. This weakensthe pavement and causes potholes. Traffic then loosen more pavement then it crumbles and pops out. General criteria for repair is a hole in the pavement that is 2 inches or more deep and over 8 inches in diameter. During winter, potholes are temporarily repaired with cold asphalt mix because manufacturers of hot asphalt are closed. Road repair comes first to high volume and high speeh routes and to access for emergency. Second, is to schools and commercial business. Third priority roads are low volume rural routes. Potholes could cause accidents, damage car's tires, wheels, shocks, struts, and springs.
-Reaction
This is good additional information about potholes. Found out what size a potholes has to be before getting repaired. I would like to know more in depth about damages that can be done to cars.
Student Choice 2-Free Writing
I have collected a lot of information on concrete pavement and asphalt pavement. Purpose of roads and highways is for access and mobility. Back in historic time, Rome and China had trails used by caravans to frieght animals. But concidering modern history, highways began when automotive was introduced in the 1900's.
There is too much information, information over-load here! Im going to try to outline my paper. Hopefully it will narrow down some information of the research I to use. First, I like to state my proposal. Then, reflect back on history of roads, when they were used and why. Followed by history of concrete and asphalt use. Also, showing what the material is made of. Pros and cons of the pavement. Damages dont to asphalt road vs concrete. Such as more potholes and damages of cars due to potholes. Maybe some stats if possible.
Thursday, April 1, 2010
Research Journal - Entry 2 and 3
Annotated Bibliography 2:
-Cite
Dresser, Richard C. "Asphalt." Encyclopedia Americana. 2010. Grolier Online. 1 Apr. 2010.
-Summary
Assertion-Asphalt, a material used in building and paving since ancient times.
3800 B.C. used as mortar for building stones and paving blocks. It made reserviors, canals, and bathing pool watertight. About 80% of the asphalt used in the U.S. is for highways, airports, and other paving. U.S. began to use asphalt in 1870 with laying of a stretch of pavement infront of the city hall in Newark, NJ. Most asphalt used in the U.S. now comes from refining of crude petroleum. Since WW2, asphalt used for surfacing primary highways and other heavy duty roads because of its economy, speed of construction, durability, easily repaired, and riding comfort.
-Reaction
Good history. Lots of information about how asphalt is moade and refined. Some information on paving roads. (I need to read more articles and compare on this subject).
Annotated Bibliography 3:
-Cite
Cordon, William A. "Concrete." Encyclopedia Americana. 2010. Grolier Online. 30 Mar. 2010.
-Summary
Assertion-Concrete is a composite material whose key ingredient is a binding medium in which small pieces of rock or ot her materials are embedded.
Stated that concrete been used by human for the past 5,000 years. Also, hisory of where and rememoriable stuctures of concrete. It explained what portland cement is made up of and how it is mixed; why cement is durable and why it shrinks and expands. It also explanned why concrete needs reinforcement.
-Reaction
There is a lot of information not needed for my paper. I need to reread highlighted areas and decided what is necessary.
-Cite
Dresser, Richard C. "Asphalt." Encyclopedia Americana. 2010. Grolier Online. 1 Apr. 2010
-Summary
Assertion-Asphalt, a material used in building and paving since ancient times.
3800 B.C. used as mortar for building stones and paving blocks. It made reserviors, canals, and bathing pool watertight. About 80% of the asphalt used in the U.S. is for highways, airports, and other paving. U.S. began to use asphalt in 1870 with laying of a stretch of pavement infront of the city hall in Newark, NJ. Most asphalt used in the U.S. now comes from refining of crude petroleum. Since WW2, asphalt used for surfacing primary highways and other heavy duty roads because of its economy, speed of construction, durability, easily repaired, and riding comfort.
-Reaction
Good history. Lots of information about how asphalt is moade and refined. Some information on paving roads. (I need to read more articles and compare on this subject).
Annotated Bibliography 3:
-Cite
Cordon, William A. "Concrete." Encyclopedia Americana. 2010. Grolier Online. 30 Mar. 2010
-Summary
Assertion-Concrete is a composite material whose key ingredient is a binding medium in which small pieces of rock or ot her materials are embedded.
Stated that concrete been used by human for the past 5,000 years. Also, hisory of where and rememoriable stuctures of concrete. It explained what portland cement is made up of and how it is mixed; why cement is durable and why it shrinks and expands. It also explanned why concrete needs reinforcement.
-Reaction
There is a lot of information not needed for my paper. I need to reread highlighted areas and decided what is necessary.
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