Welcoming New Iowans; A Guide for Christians and Churches, 2002

Immigrant and refugee newcomers have an important role in Iowa. These newcomers have revitalized many Iowa communities, workplaces and faith-based institutions. The arrival of immigrants and refugees poses challenges as well as rewards; understanding and addressing these issues is vital to welcoming and accommodating new Iowans and assuring their part in the long-term economic and social health of our state. This handbook represents a unique collaboration between the University of Northern Iowa (UNI) and Ecumenical Ministries of Iowa (EMI). The goal of this collaboration is to create a guidebook for Iowans to learn more about Iowa’s growing immigrant and refugee population and discover ways to welcome these newcomers and accommodate them in our communities and churches. The unique nature of this joint publication between a public university and Christian churches acknowledges that both institutions have a stake in accommodating immigrants in Iowa. UNI and all institutions of higher education need to support population growth to assure future enrollments. Churches and many other community institutions need immigrants and other newcomers to help maintain their viability. Universities and churches also need healthy local economies. Newcomers can provide much needed skills and labor to make this happen. In short, His collaboration recognizes that making immigration in Iowa work has important long-term implications for us all. This book was written and compiled by two university faculty members, but it is not an official university endorsement of Christianity as the only religion practiced and accepted by Iowans, and no university funds were used to print or distribute this handbook. This handbook is written for Iowa’s Christian community and is based on the Biblical mandate to welcome newcomers, but we acknowledge Iowa’s other religious groups and their role in accommodating newcomers as well. We readily acknowledge that other faith-based organizations also welcome newcomers and have a stake in making immigration a positive experience. In order to accommodate the perspectives and needs of these groups, the UNI New Iowans Program is planning to develop similar handbooks for Iowa’s Jewish and Muslim communities. This handbook includes a number of resource lists for individuals, newcomers, churches and others. Of course, as soon as these lists are printed, they may become out-of-date. In order to obtain the most up-to-date information, please visit the UNI New Iowans Web site: www.bcs.uni.edu/idm/newiowans/ The UNI New Iowans website also makes this handbook available in a PDF format.

Fiscal Year 2011 Annual Report Iowa Workforce Development, 2011

The agency continually strives to improve processes and align the organization in such a way to provide effective, demand driven products and services. Iowa Workforce Development‟s administrative, labor services, workers‟ compensation, labor market information, and the unemployment insurance service staff are located in Des Moines. Additionally, the agency maintains a statewide delivery system of 55 field offices in conjunction with our workforce partners. Through a comprehensive Web site, Iowa Workforce Development provides customers access to major services such as posting résumés; access to a statewide job bank; labor services information, unemployment claim information and filing options; and labor market information, 24 hours a day, seven days a week.

Solar Powered Highway Delineator System, HR-367, 1993

Currently, many drivers experience some difficulty in viewing the road ahead of them during times of reduced visibility, such as rain, snow, fog, or the darkness of night- Recent studies done by the National Safety Council provide a detailed contrast between fatal accidents occurring during the day and night. Revealed was that the motor vehicle night death rate (4.41 deaths per 100 million miles driven) was sharply higher than the corresponding death rate during daylight hours (1.21). By providing a delineating system powered by the natural resource of solar power, a constant source of visibility may be maintained throughout the evening. Along with providing enough light to trace the outline of the road, other major goals defined in producing this delineator system are as follows: 1. A strong and durable design that would protect the internal components and survive extreme weather conditions. 2. A low maintenance system where components need few repairs or replacements. 3. A design which makes all components accessible in the event that maintenance is needed, but also prevents vandalism. 4. A design that provides greater visibility to drivers and will not harm a vehicle or its passengers in the event of a collision. This solar powered highway delineator consists of an adjustable solar array, a light fixture, and a standard delineator pole. The solar array houses and protects the solar panels, and can be easily adjusted to obtain a maximum amount of sunlight. The light fixture primarily houses the battery, the circuit and the light assembly. Both components allow for easy accessibility and reduce vandalism using internal connections for bolts and wires. The delineator mounting pole is designed to extensively deform in the event of a collision, therefore reducing any harm caused to the vehicle and/or the passengers. The cost of a single prototype to be produced is approximately $70.00 excluding labor costs. However, these material and labor costs will be greatly reduced if a large number of delineators are produced. It is recommended that the Iowa Department of Transportation take full advantage of the research and development put into this delineator design. The principles used in creating this delineator can be used to provide an outline for drivers to follow, or on a larger scale, provide actual roadway lighting in areas where it was never before possible or economically feasible. In either event, the number of fatal accidents will be decreased due to the improved driver visibility in the evening.

Evaluation of Post-Tension Strengthened Steel Girder Bridge Using FRP Bars, 2003

Many state, county, and local agencies are faced with deteriorating bridge infrastructure composed of a large percentage of relatively short to medium span bridges. In many cases, these older structures are rolled or welded longitudinal steel stringers acting compositely with a reinforced concrete deck. Most of these bridges, although still in service, need some level of strengthening due to increases in legal live loads or loss of capacity due to deterioration. Although these bridges are overstressed in most instances, they do not warrant replacement; thus, structurally efficient but cost-effective means of strengthening needs to be employed. In the past, the use of bolted steel cover plates or angles was a common retrofit option for strengthening such bridges. However, the time and labor involved to attach such a strengthening system can sometimes be prohibitive. This project was funded through the Federal Highway Administration’s Innovative Bridge Research and Construction program. The goal is to retrofit an existing structurally deficient, three-span continuous steel stringer bridge using an innovative technique that involves the application of post-tensioning forces; the post-tensioning forces were applied using fiber reinforced polymer post-tensioning bars. When compared to other strengthening methods, the use of carbon fiber reinforced polymer composite materials is very appealing in that they are highly resistant to corrosion, have a low weight, and have a high tensile strength. Before the post-tensioning system was installed, a diagnostic load test was conducted on the subject bridge to establish a baseline behavior of the unstrengthened bridge. During the process of installing the post-tensioning hardware and stressing the system, both the bridge and the post-tensioning system were monitored. The installation of the hardware was followed by a follow-up diagnostic load test to assess the effectiveness of the post-tensioning strengthening system. Additional load tests were performed over a period of two years to identify any changes in the strengthening system with time. Laboratory testing of several typical carbon fiber reinforced polymer bar specimens was also conducted to more thoroughly understand their behavior. This report documents the design, installation, and field testing of the strengthening system and bridge.