Profiling and Reemployment Services, October 2003

It’s a way to help you move from unemployment to reemployment with customized services that meet your individual needs and take you where you want to go — back to work! Profiling is done in the early stages of your unemployment insurance claim by looking at certain factors, such as previous occupation, previous industry, education, duration of employment, wages, etc. Depending on the availability of services, some people identified by Iowa Workforce Development Centers during this profiling process will be offered the opportunity to benefit from additional reemployment services.

Pieces of Iowa’s Past, January 25, 2012

Pieces of Iowa’s Past, published by the Iowa State Capitol Tour Guides weekly during the legislative session, features historical facts about Iowa, the Capitol, and the early workings of state government. All historical publications are reproduced here with the actual spelling, punctuation, and grammar retained. January 25, 2012 THIS WEEK: HOUSE RESOLUTIONS PRESENTED ON JANUARY 8, 1866 BACKGROUND: Background: The 11th General Assembly convened January 8, 1866, and adjourned April 3, 1866—an 86-day session. There were 146 members in the legislature, 48 senators and 98 representatives. Iowa’s Governor was William Milo Stone, and the 1860 census showed Iowa’s population at 482,699. Robert Finkbine represented House district 26. It was Finkbine’ s second term. He was 37 and listed his occupation as “builder.” Robert Finkbine went on to become the Superintendent of Construction for the present day Capitol. House district 26 represented Johnson County in 1866. In 1878, Marion County became the constituency for House district 26. The representative in House district 26 in 1878 was William Milo Stone, previous governor and resident of Knoxville

Blanket Curing to Promote Early Strength Concrete, MLR-87-7, 1989

Fast Track concrete has proven to be successful in obtaining high early strengths. This benefit does not come without cost. Special Type III cement and insulating blankets to accelerate the cure add to its expense when compared to conventional paving. This research was intended to determine the benefit derived from the use of insulating blankets to accelerate strength gain in three concrete mixes using Type I cement. The goal was to determine mixes and curing procedures that would result in a range of opening times. This determination would allow the most economical design for a particular project by tailoring it to a specific time restraint. Three mixes of various cement content were tested in the field. Flexural beams were cast for each mix and tested at various ages. Two test sections were placed for each mix, one section being cured with the addition of insulating blankets and the other being cured with only conventional curing compound. Iowa Department of Transportation specifications require 500 psi flexural strength before a pavement can be opened to traffic. Concrete with Fast Track proportions (nominal 7 1/2 bag), Type I cement, and insulating blankets reached that strength in approximately 36 hr, a standard mix (nominal 6 1/2 bag) using the blankets in approximately 48 hr, and the Fast Track proportions with Type I cement without blankets in about 60 hr. The results showed a significant improvement in early strength gain with the use of insulating blankets.

Thin Bonded Overlay Evaluation, HR-559, Final Report, 2001

In 1994 the Iowa Department of Transportation constructed a 7.2-mile Portland Cement Concrete overlay project in Iowa County on Iowa Highway 21. The research work was conducted in cooperation with the Department of Civil Engineering and the Federal Highway Administration under the Iowa Highway Research Board project HR-559. The project was constructed to evaluate the performance of an ultrathin concrete overlay during a 5-year period. The experiment included variables of base surface preparation, overlay depth, joint spacing, fiber reinforcement, and the sealed or non-sealed joints. The project was instrumented to measure overlay/base interface temperatures and strains. Visual distress surveys and deflection testing were also used to monitor performance. Coring and direct shear testing was accomplished 3 times during the research period. Results of the testing and monitoring are identified in the report. The experiment was very successful and the results provide an insight into construction and design needs to be considered in tailoring a portland cement concrete overlay to a performance need. The results also indicate a method to monitor bond with nondestructive methods.