Category: News

Interesting stories about and for our students.

LiveScience.com Features John Gierke

Tech Today

By Jennifer Donovan, Michigan Technological University

LiveScience.com featured a profile of Associate Professor John Gierke (GMES) in its ScienceLives series.  The series is a cooperation between the National Science Foundation and LiveScience. 

Graduate students will find of interest several of Gierke’s answers to questions that explore what makes scientists tick.

Check out the full story at LiveScience and stay tuned for an upcoming Behind the Scenes story that will feature Gierke’s work and former graduate student Jill Bruning.

MBA Student Chad Daavettila Honored

Tech Today

MBA student Chad Daavetilla was inducted into the Michigan Tech chapter of Beta Gamma Sigma business honor society.  Students ranking in the top 20 percent of master’s degree programs at schools accredited by the Association to Advance Collegiate Schools of Business International are eligible for membership.

While almost 300,000 students receive bachelor’s or master’s degrees in business each year, only about 20,000 are inducted into lifetime membership in Beta Gamma Sigma. BGS membership provides many benefits, including career development advice, leadership conferences, networking with successful business people and scholarships.

The co-advisors for the Michigan Tech chapter of BGS are Associate Professor Chelley Vician and Assistant Professor Mari Buche (SBE). For more information about BGS, visit http://betagammasigma.org/index.htm .

National Geographic TV Highlights Tech Volcano Research

Tech Today

Clips from a film about Adam Durant’s volcano research in Hawaii will be shown on the National Geographic Channel as part of an Earth Day program at 8 p.m. tonight.

Durant earned his PhD in Geology from Michigan Tech in 2007.  After graduation he did a post-doc at the University of Bristol.  Currently, he is an adjunct faculty member in the Department of Geological and Mining Engineering and Sciences.

He and colleagues took meteorological balloons to the Kilauea Volcano last summer to make the first on-site measurements of volcanic gases as they spewed from the mouth of the volcano.

For a story about Durant’s volcano research that appeared last year, see Tech’s website: www.admin.mtu.edu/urel/news/media_relations/708/ .

CEE Students Present Seminar April 16th

Published in Tech Today.

Two graduate students in civil and environmental engineering will present a seminar at 4 p.m., April 16th, in Dow 642.

Shane Ferrell, a master’s student, will give a talk, “Cold Climate Embankment Stabilization.” He will address, in part, transportation infrastructures in cold climates.

Baron Colbert, a doctoral student, will give a talk, “The Application of Warm Mix Technology to High Percentage Recycled Asphalt Pavement (RAP) Mixtures.” He will address, in part, the effects that warm mix asphalt has on recycled asphalt pavements.

For more information, contact Zhanping You at 487-1059 or at zyou@mtu.edu .

Alumni and Graduate School staff honored by Alumni Association

Announced in Tech Today.

The Michigan Tech Alumni Association Board of Directors has announced the recipients of the 2009 Alumni Association Awards:

Outstanding Young Alumni Award
Michelle Boven ’99
BS in Mechanical Engineering

Honorary Alumni Award
Betty Chavis, recruiting consultant, Graduate School

Outstanding Service Award
John Calder ’67, ’76
BS in Mechanical Engineering, MS in Business Administration

Distinguished Alumni Award
Frank Pavlis ’38
BS in Chemical Engineering

For more information, click here.

Computer Science Faculty Member, Doctoral Candidate Receive Best Paper Award

Published in Tech Today

Doctoral candidate Alicia Thorsen and Assistant Professor Philip Merkey (Computer Science), along with Professor Fredrik Manne of the University of Bergen in Norway, received the Best Paper Award at the High Performance Computing and Simulation Symposium held in late March in San Diego.

Thorsen presented the paper, “Maximum Weighted Matching Using the
Partitioned Global Address Space Model.”

This paper described the design and implementation of an algorithm, expressed in a new programming language, UPC, which is designed to program the coming generation of petascale supercomputers.

Oh Deer: Grad Student Studies Effect of Whitetails on Hemlock

Published in Tech Today
by Marcia Goodrich, senior writer

Nicholas Jensen likes hemlocks. “They’re my favorite tree,” he says, both for their graceful, arching tops and branches and for the shady, uncluttered forest floor they create.

But hemlocks are in trouble, down about 99 percent throughout their regional historic range. So Jensen, a master’s student in forest ecology and management, is studying how one particular animal species might impact the survival of the remaining 1 percent.

In winter, whitetail deer–lots of them–gather (or “yard up”) in groves of hemlock and cedar to escape the deep snow. They do eat hemlock, but they also deposit plenty of scat. Jensen wondered if their presence in high numbers was in effect fertilizing the local ecosystem and changing what types of plants were growing there.

Eastern hemlock thrives in poor soils that most other forest trees can’t abide. If those soils become fertile, Jensen thought, they might be colonized by other trees, like sugar maples, that could displace the hemlocks.

Three years ago, he began his study of 39 hemlock groves in the Lake Superior basin, conducting “pellet counts” and tracking the types of plants growing on the forest floor. Locally, he visited hemlock groves near Point Abbey and Big Eric’s Bridge, in Baraga County.

Hemlock groves let very little light through to ground. Only a few species of low-growing plants, including wild lily of the valley and wood ferns, grow under these conditions. However, Jensen discovered that different species of plants grow in hemlock groves that shelter lots of deer in the winter.

Just why this is happening isn’t clear. Maybe these new plants like the richer soils, maybe the deer are eating saplings and making way for additional low-growing plants.

What is clear is that something is going on, Jensen says. “It’s important to understand this. Hemlocks are an important resource, and they are really under pressure,” he says. “My hope is that we’ll be able to raise awareness of the effect deer may be having, and that our findings will someday be considered in forest management. It could be relevant to the persistence of this forest type.”

Jensen presented his work at the Graduate Student Council Research Colloquium, held April 2-3 at the Rozsa Center. His advisor is Associate Professor Chris Webster (SFRES).

Geology Grad Student Wins National Recognition

Tech Today

by Tom Schneider, student writer

For Alex Guth, being a graduate student is hardly a passive ordeal.

Recently, the Association for Women Geoscientists awarded the Brunton Award to Guth. This award, named for a top manufacturer of high-end compasses, is a prestigious commendation for work in field mapping and data acquisition. The award will include a personally engraved compass from Brunton.

“We are very proud of Alex’s work and are glad to see it recognized by a well respected organization like the Association for Women Geoscientists,” said Professor Wayne Pennington, chair of the geological and mining engineering and sciences department. Guth is pursuing a PhD in Geology.

Guth uses satellite imaging to create innovative geological maps of remote, inaccessible terrain. She has conducted fieldwork in Kenya, studying rifts in the earth. She also teaches an online distance learning course in earth science for teachers (K-12), as well as the lecture section of Structural Geology and a course on mapping of remote terrain.

“Alex is not just another student, she is a critical member of our department,” said Pennington.

Grad Student Draws on 19th Century Findings for 21st Century Research

Tech Today

by Marcia Goodrich, senior writer

Deep in the stacks of the J. R. Van Pelt and Opie Library, Joe Miller stumbled upon a 112-year-old book that gave him a start.

Miller is a civil engineer specializing in heavy-timber roof design. He settled at Michigan Tech to get his PhD and to learn more about keyed beams than anyone in the history of carpentry. Keyed beams, lovely and useful though they may be, are in one sense an also-ran in the world of wood.

Miller explains in the context of the Upper Peninsula, where the old-growth, white-pine forests were ferociously clearcut in the 19th century. “By 1900, all the large trees were forested,” he said. The massive timbers required for constructing large buildings and reinforcing mine tunnels were no more. Builders needed a cheap, local alternative, so they began making big beams out of two smaller ones.

They cut mated notches in the lesser beams, fastened them together, and pounded close-fitting wedges, or keys, into the notches. The technique keeps beams stiff and bound tightly together, which prevents them from slipping (and breaking prematurely) when heavily weighted in the middle.

Keyed beams have been around since the 18th century. More recently, builders have adopted other technologies, but they aren’t always popular. “A lot of my clients had problems with steel beams or glue-laminated timbers,” Miller said. “Aesthetically, they wanted to use a more-natural approach that could be achieved locally, with local materials.”

Now, with keyed beams gaining a new following, Miller is developing the first theoretical model to represent their capacity under load. In other words, how much weight can they take before they break? And what factors determine if a keyed beam will be stiff enough?

Which brings us back to the library and the 112-year-old book. Miller was perusing the library’s offerings on the subject when he stumbled across an 1897 reference volume, buried in the basement, authored by Edward Kidwell of Hancock.

Kidwell, as it turns out, was on the faculty at the Michigan School of Mines. And he was one of the earliest researchers to conduct valid scientific tests on keyed beams and document the results. “It wasn’t until I’d chosen a school and a dissertation topic that I found his book,” Miller said, still struck by the coincidence. On top of this, Miller found Kidwell’s century-old reports to be both reliable and engaging.

“I appreciated his candor,” he said. In the book, Kidwell was critical of earlier keyed beam experts whose assertions did not stand up to scrutiny. “I also tested his methods, and everything he said appears spot on,” Miller said. “And Kidwell provided enough detail so that I could plug his numbers into my model.”

In addition to working with Kidwell’s findings, Miller has been testing his model against experimental evidence gathered in his own lab, where he has been building and testing keyed beams fabricated from solid oak, yellow poplar and wood laminate. “I’ve found that the inclination and shape of the keys can have an incredible effect” on the strength of the beam, he said.

“To be reinvestigating a concept that’s been around 300 years is kind of cool,” he said. It’s also cool to be building on foundational work conducted right here over 100 years ago.